avrdude/src/avrintel.c

5459 lines
380 KiB
C
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/*
* Do not edit: automatically generated by mkavrintel.pl
*
* avrintel.c
*
* Atmel AVR8L, AVR8, XMEGA and AVR8X family description of interrupts and more
*
* published under GNU General Public License, version 3 (GPL-3.0)
* meta-author: Stefan Rueger <stefan.rueger@urclocks.com>
*
* v 1.1
* 30.08.2022
*
*/
#include "ac_cfg.h"
#include <ctype.h>
#include <string.h>
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <stdarg.h>
#include <limits.h>
#include <unistd.h>
#include "avrintel.h"
const uPcore_t uP_table[] = { // Value of -1 typically means unknown
//{mcu_name, mcuid, family, {sig, na, ture}, flstart, flsize, pgsiz, nb, bootsz, eestart, eesize, ep, rambeg, ramsiz, nf, nl, ni, isr_names}, // Source
{"ATtiny4", 0, F_AVR8L, {0x1E, 0x8F, 0x0A}, 0, 0x00200, 0x010, 0, 0, 0, 0, 0, 0x0040, 0x0020, 1, 1, 10, vtab_attiny9}, // atdf, avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATtiny5", 1, F_AVR8L, {0x1E, 0x8F, 0x09}, 0, 0x00200, 0x010, 0, 0, 0, 0, 0, 0x0040, 0x0020, 1, 1, 11, vtab_attiny10}, // atdf, avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATtiny9", 2, F_AVR8L, {0x1E, 0x90, 0x08}, 0, 0x00400, 0x010, 0, 0, 0, 0, 0, 0x0040, 0x0020, 1, 1, 10, vtab_attiny9}, // atdf, avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATtiny10", 3, F_AVR8L, {0x1E, 0x90, 0x03}, 0, 0x00400, 0x010, 0, 0, 0, 0, 0, 0x0040, 0x0020, 1, 1, 11, vtab_attiny10}, // atdf, avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATtiny20", 4, F_AVR8L, {0x1E, 0x91, 0x0F}, 0, 0x00800, 0x020, 0, 0, 0, 0, 0, 0x0040, 0x0080, 1, 1, 17, vtab_attiny20}, // atdf, avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATtiny40", 5, F_AVR8L, {0x1E, 0x92, 0x0E}, 0, 0x01000, 0x040, 0, 0, 0, 0, 0, 0x0040, 0x0100, 1, 1, 18, vtab_attiny40}, // atdf, avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATtiny102", 6, F_AVR8L, {0x1E, 0x90, 0x0C}, 0, 0x00400, 0x010, 0, 0, 0, 0, 0, 0x0040, 0x0020, 1, 1, 16, vtab_attiny104}, // atdf, avrdude, boot size (manual)
{"ATtiny104", 7, F_AVR8L, {0x1E, 0x90, 0x0B}, 0, 0x00400, 0x010, 0, 0, 0, 0, 0, 0x0040, 0x0020, 1, 1, 16, vtab_attiny104}, // atdf, avrdude, boot size (manual)
{"ATtiny11", 8, F_AVR8, {0x1E, 0x90, 0x04}, 0, 0x00400, 0x001, 0, 0, 0, 0x0040, 1, 0x0060, 0x0020, 1, 1, 5, vtab_attiny11}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny12", 9, F_AVR8, {0x1E, 0x90, 0x05}, 0, 0x00400, 0x001, 0, 0, 0, 0x0040, 2, 0x0060, 0x0020, 1, 1, 6, vtab_attiny12}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny13", 10, F_AVR8, {0x1E, 0x90, 0x07}, 0, 0x00400, 0x020, 0, 0, 0, 0x0040, 4, 0x0060, 0x0040, 2, 1, 10, vtab_attiny13a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny13A", 11, F_AVR8, {0x1E, 0x90, 0x07}, 0, 0x00400, 0x020, 0, 0, 0, 0x0040, 4, 0x0060, 0x0040, 2, 1, 10, vtab_attiny13a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny15", 12, F_AVR8, {0x1E, 0x90, 0x06}, 0, 0x00400, 0x001, 0, 0, 0, 0x0040, 2, 0x0060, 0x0020, 1, 1, 9, vtab_attiny15}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny22", 13, F_AVR8, {0x1E, 0x91, 0x06}, 0, 0x00800, -1, -1, -1, -1, -1, -1, 0x0060, 0x0080, 1, 1, 3, vtab_attiny22}, // avr-gcc 12.2.0
{"ATtiny24", 14, F_AVR8, {0x1E, 0x91, 0x0B}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 17, vtab_attiny84a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny24A", 15, F_AVR8, {0x1E, 0x91, 0x0B}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 17, vtab_attiny84a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny25", 16, F_AVR8, {0x1E, 0x91, 0x08}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 15, vtab_attiny85}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny26", 17, F_AVR8, {0x1E, 0x91, 0x09}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 2, 1, 12, vtab_attiny26}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny28", 18, F_AVR8, {0x1E, 0x91, 0x07}, 0, 0x00800, 0x002, 0, 0, 0, 0, 0, 0x0060, 0x0020, 1, 1, 6, vtab_attiny28}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny43U", 19, F_AVR8, {0x1E, 0x92, 0x0C}, 0, 0x01000, 0x040, 0, 0, 0, 0x0040, 4, 0x0060, 0x0100, 3, 1, 16, vtab_attiny43u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny44", 20, F_AVR8, {0x1E, 0x92, 0x07}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0060, 0x0100, 3, 1, 17, vtab_attiny84a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny44A", 21, F_AVR8, {0x1E, 0x92, 0x07}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0060, 0x0100, 3, 1, 17, vtab_attiny84a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny45", 22, F_AVR8, {0x1E, 0x92, 0x06}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0060, 0x0100, 3, 1, 15, vtab_attiny85}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny48", 23, F_AVR8, {0x1E, 0x92, 0x09}, 0, 0x01000, 0x040, 0, 0, 0, 0x0040, 4, 0x0100, 0x0100, 3, 1, 20, vtab_attiny88}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny84", 24, F_AVR8, {0x1E, 0x93, 0x0C}, 0, 0x02000, 0x040, 0, 0, 0, 0x0200, 4, 0x0060, 0x0200, 3, 1, 17, vtab_attiny84a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny84A", 25, F_AVR8, {0x1E, 0x93, 0x0C}, 0, 0x02000, 0x040, 0, 0, 0, 0x0200, 4, 0x0060, 0x0200, 3, 1, 17, vtab_attiny84a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny85", 26, F_AVR8, {0x1E, 0x93, 0x0B}, 0, 0x02000, 0x040, 0, 0, 0, 0x0200, 4, 0x0060, 0x0200, 3, 1, 15, vtab_attiny85}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny87", 27, F_AVR8, {0x1E, 0x93, 0x87}, 0, 0x02000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny167}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny88", 28, F_AVR8, {0x1E, 0x93, 0x11}, 0, 0x02000, 0x040, 0, 0, 0, 0x0040, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny88}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny167", 29, F_AVR8, {0x1E, 0x94, 0x87}, 0, 0x04000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny167}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny261", 30, F_AVR8, {0x1E, 0x91, 0x0C}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 19, vtab_attiny861a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny261A", 31, F_AVR8, {0x1E, 0x91, 0x0C}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 19, vtab_attiny861a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny441", 32, F_AVR8, {0x1E, 0x92, 0x15}, 0, 0x01000, 0x010, 0, 0, 0, 0x0100, 4, 0x0100, 0x0100, 3, 1, 30, vtab_attiny841}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny461", 33, F_AVR8, {0x1E, 0x92, 0x08}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0060, 0x0100, 3, 1, 19, vtab_attiny861a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny461A", 34, F_AVR8, {0x1E, 0x92, 0x08}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0060, 0x0100, 3, 1, 19, vtab_attiny861a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny828", 35, F_AVR8, {0x1E, 0x93, 0x14}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0100, 4, 0x0100, 0x0200, 3, 1, 26, vtab_attiny828}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny828R", 36, F_AVR8, {0x1E, 0x93, 0x14}, 0, 0x02000, 0x040, -1, -1, 0, 0x0100, 4, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATtiny841", 37, F_AVR8, {0x1E, 0x93, 0x15}, 0, 0x02000, 0x010, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 30, vtab_attiny841}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny861", 38, F_AVR8, {0x1E, 0x93, 0x0D}, 0, 0x02000, 0x040, 0, 0, 0, 0x0200, 4, 0x0060, 0x0200, 3, 1, 19, vtab_attiny861a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny861A", 39, F_AVR8, {0x1E, 0x93, 0x0D}, 0, 0x02000, 0x040, 0, 0, 0, 0x0200, 4, 0x0060, 0x0200, 3, 1, 19, vtab_attiny861a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1634", 40, F_AVR8, {0x1E, 0x94, 0x12}, 0, 0x04000, 0x020, 0, 0, 0, 0x0100, 4, 0x0100, 0x0400, 3, 1, 28, vtab_attiny1634}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1634R", 41, F_AVR8, {0x1E, 0x94, 0x12}, 0, 0x04000, 0x020, -1, -1, 0, 0x0100, 4, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATtiny2313", 42, F_AVR8, {0x1E, 0x91, 0x0A}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 19, vtab_attiny2313}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny2313A", 43, F_AVR8, {0x1E, 0x91, 0x0A}, 0, 0x00800, 0x020, 0, 0, 0, 0x0080, 4, 0x0060, 0x0080, 3, 1, 21, vtab_attiny4313}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny4313", 44, F_AVR8, {0x1E, 0x92, 0x0D}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0060, 0x0100, 3, 1, 21, vtab_attiny4313}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega8", 45, F_AVR8, {0x1E, 0x93, 0x07}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0060, 0x0400, 2, 1, 19, vtab_atmega8a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega8A", 46, F_AVR8, {0x1E, 0x93, 0x07}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0060, 0x0400, 2, 1, 19, vtab_atmega8a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega8HVA", 47, F_AVR8, {0x1E, 0x93, 0x10}, 0, 0x02000, 0x080, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 1, 1, 21, vtab_atmega16hva}, // atdf, avr-gcc 12.2.0
{"ATmega8U2", 48, F_AVR8, {0x1E, 0x93, 0x89}, 0, 0x02000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 29, vtab_atmega32u2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega16", 49, F_AVR8, {0x1E, 0x94, 0x03}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0060, 0x0400, 2, 1, 21, vtab_atmega16a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega16A", 50, F_AVR8, {0x1E, 0x94, 0x03}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0060, 0x0400, 2, 1, 21, vtab_atmega16a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega16HVA", 51, F_AVR8, {0x1E, 0x94, 0x0C}, 0, 0x04000, 0x080, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 1, 1, 21, vtab_atmega16hva}, // atdf, avr-gcc 12.2.0
{"ATmega16HVB", 52, F_AVR8, {0x1E, 0x94, 0x0D}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0400, 2, 1, 29, vtab_atmega32hvbrevb}, // atdf, avr-gcc 12.2.0
{"ATmega16HVBrevB", 53, F_AVR8, {0x1E, 0x94, 0x0D}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0400, 2, 1, 29, vtab_atmega32hvbrevb}, // atdf, avr-gcc 12.2.0
{"ATmega16M1", 54, F_AVR8, {0x1E, 0x94, 0x84}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 31, vtab_atmega64m1}, // atdf, avr-gcc 12.2.0
{"ATmega16HVA2", 55, F_AVR8, {0x1E, 0x94, 0x0E}, 0, 0x04000, 0x080, -1, -1, -1, -1, -1, 0x0100, 0x0400, 2, 1, 22, vtab_atmega16hva2}, // avr-gcc 12.2.0
{"ATmega16U2", 56, F_AVR8, {0x1E, 0x94, 0x89}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 29, vtab_atmega32u2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega16U4", 57, F_AVR8, {0x1E, 0x94, 0x88}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0500, 3, 1, 43, vtab_atmega32u4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega32", 58, F_AVR8, {0x1E, 0x95, 0x02}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0060, 0x0800, 2, 1, 21, vtab_atmega323}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega32A", 59, F_AVR8, {0x1E, 0x95, 0x02}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0060, 0x0800, 2, 1, 21, vtab_atmega323}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega32HVB", 60, F_AVR8, {0x1E, 0x95, 0x10}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 2, 1, 29, vtab_atmega32hvbrevb}, // atdf, avr-gcc 12.2.0
{"ATmega32HVBrevB", 61, F_AVR8, {0x1E, 0x95, 0x10}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 2, 1, 29, vtab_atmega32hvbrevb}, // atdf, avr-gcc 12.2.0
{"ATmega32C1", 62, F_AVR8, {0x1E, 0x95, 0x86}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 31, vtab_atmega64m1}, // atdf, avr-gcc 12.2.0
{"ATmega32M1", 63, F_AVR8, {0x1E, 0x95, 0x84}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 31, vtab_atmega64m1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega32U2", 64, F_AVR8, {0x1E, 0x95, 0x8A}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0400, 3, 1, 29, vtab_atmega32u2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega32U4", 65, F_AVR8, {0x1E, 0x95, 0x87}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0a00, 3, 1, 43, vtab_atmega32u4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega32U6", 66, F_AVR8, {0x1E, 0x95, 0x88}, 0, 0x08000, 0x080, 4, 0x0200, -1, -1, -1, 0x0100, 0x0a00, 3, 1, 38, vtab_atmega32u6}, // avr-gcc 12.2.0, boot size (manual)
{"ATmega48", 67, F_AVR8, {0x1E, 0x92, 0x05}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega48A", 68, F_AVR8, {0x1E, 0x92, 0x05}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega48P", 69, F_AVR8, {0x1E, 0x92, 0x0A}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega48PA", 70, F_AVR8, {0x1E, 0x92, 0x0A}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega48PB", 71, F_AVR8, {0x1E, 0x92, 0x10}, 0, 0x01000, 0x040, 0, 0, 0, 0x0100, 4, 0x0100, 0x0200, 3, 1, 27, vtab_atmega168pb}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega64", 72, F_AVR8, {0x1E, 0x96, 0x02}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 35, vtab_atmega128a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega64A", 73, F_AVR8, {0x1E, 0x96, 0x02}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 35, vtab_atmega128a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega64HVE", 74, F_AVR8, {0x1E, 0x96, 0x10}, 0, 0x10000, 0x080, 4, 0x0400, -1, -1, -1, 0x0100, 0x1000, 2, 1, 25, vtab_atmega64hve2}, // avr-gcc 12.2.0, boot size (manual)
{"ATmega64C1", 75, F_AVR8, {0x1E, 0x96, 0x86}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 31, vtab_atmega64m1}, // atdf, avr-gcc 12.2.0
{"ATmega64M1", 76, F_AVR8, {0x1E, 0x96, 0x84}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 31, vtab_atmega64m1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega64HVE2", 77, F_AVR8, {0x1E, 0x96, 0x10}, 0, 0x10000, 0x080, 4, 0x0400, 0, 0x0400, 4, 0x0100, 0x1000, 2, 1, 25, vtab_atmega64hve2}, // atdf, avr-gcc 12.2.0
{"ATmega64RFR2", 78, F_AVR8, {0x1E, 0xA6, 0x02}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0200, 0x2000, 3, 1, 77, vtab_atmega2564rfr2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega88", 79, F_AVR8, {0x1E, 0x93, 0x0A}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega88A", 80, F_AVR8, {0x1E, 0x93, 0x0A}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega88P", 81, F_AVR8, {0x1E, 0x93, 0x0F}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega88PA", 82, F_AVR8, {0x1E, 0x93, 0x0F}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega88PB", 83, F_AVR8, {0x1E, 0x93, 0x16}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 27, vtab_atmega168pb}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega103", 84, F_AVR8, {0x1E, 0x97, 0x01}, 0, 0x20000, 0x100, -1, -1, 0, 0x1000, 1, 0x0060, 0x0fa0, 1, 1, 24, vtab_atmega103}, // avr-gcc 12.2.0, avrdude
{"ATmega128", 85, F_AVR8, {0x1E, 0x97, 0x02}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x1000, 3, 1, 35, vtab_atmega128a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega128A", 86, F_AVR8, {0x1E, 0x97, 0x02}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x1000, 3, 1, 35, vtab_atmega128a}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega128RFA1", 87, F_AVR8, {0x1E, 0xA7, 0x01}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x4000, 3, 1, 72, vtab_atmega128rfa1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega128RFR2", 88, F_AVR8, {0x1E, 0xA7, 0x02}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x4000, 3, 1, 77, vtab_atmega2564rfr2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega161", 89, F_AVR8, {0x1E, 0x94, 0x01}, 0, 0x04000, 0x080, 1, 0x0400, 0, 0x0200, 1, 0x0060, 0x0400, 1, 1, 21, vtab_atmega161}, // avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATmega162", 90, F_AVR8, {0x1E, 0x94, 0x04}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 28, vtab_atmega162}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega163", 91, F_AVR8, {0x1E, 0x94, 0x02}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 1, 0x0060, 0x0400, 2, 1, 18, vtab_atmega163}, // avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATmega164A", 92, F_AVR8, {0x1E, 0x94, 0x0F}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega164P", 93, F_AVR8, {0x1E, 0x94, 0x0A}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega164PA", 94, F_AVR8, {0x1E, 0x94, 0x0A}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega165", 95, F_AVR8, {0x1E, 0x94, 0x10}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 22, vtab_atmega645p}, // avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATmega165A", 96, F_AVR8, {0x1E, 0x94, 0x10}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega165P", 97, F_AVR8, {0x1E, 0x94, 0x07}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega165PA", 98, F_AVR8, {0x1E, 0x94, 0x07}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega168", 99, F_AVR8, {0x1E, 0x94, 0x06}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega168A", 100, F_AVR8, {0x1E, 0x94, 0x06}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega168P", 101, F_AVR8, {0x1E, 0x94, 0x0B}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega168PA", 102, F_AVR8, {0x1E, 0x94, 0x0B}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega168PB", 103, F_AVR8, {0x1E, 0x94, 0x15}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 27, vtab_atmega168pb}, // atdf, avr-gcc 7.3.0, avrdude
{"ATmega169", 104, F_AVR8, {0x1E, 0x94, 0x05}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 23, vtab_atmega649p}, // avr-gcc 12.2.0, avrdude, boot size (manual)
{"ATmega169A", 105, F_AVR8, {0x1E, 0x94, 0x11}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega169P", 106, F_AVR8, {0x1E, 0x94, 0x05}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega169PA", 107, F_AVR8, {0x1E, 0x94, 0x05}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega256RFR2", 108, F_AVR8, {0x1E, 0xA8, 0x02}, 0, 0x40000, 0x100, 4, 0x0400, 0, 0x2000, 8, 0x0200, 0x8000, 3, 1, 77, vtab_atmega2564rfr2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega323", 109, F_AVR8, {0x1E, 0x95, 0x01}, 0, 0x08000, 0x080, 4, 0x0200, -1, -1, -1, 0x0060, 0x0800, 2, 1, 21, vtab_atmega323}, // avr-gcc 12.2.0, boot size (manual)
{"ATmega324A", 110, F_AVR8, {0x1E, 0x95, 0x15}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega324P", 111, F_AVR8, {0x1E, 0x95, 0x08}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega324PA", 112, F_AVR8, {0x1E, 0x95, 0x11}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega324PB", 113, F_AVR8, {0x1E, 0x95, 0x17}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 51, vtab_atmega324pb}, // atdf, avrdude
{"ATmega325", 114, F_AVR8, {0x1E, 0x95, 0x05}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega325A", 115, F_AVR8, {0x1E, 0x95, 0x05}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega325P", 116, F_AVR8, {0x1E, 0x95, 0x0D}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega325PA", 117, F_AVR8, {0x1E, 0x95, 0x0D}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega328", 118, F_AVR8, {0x1E, 0x95, 0x14}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 26, vtab_atmega328}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega328P", 119, F_AVR8, {0x1E, 0x95, 0x0F}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega328PB", 120, F_AVR8, {0x1E, 0x95, 0x16}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 45, vtab_atmega328pb}, // atdf, avr-gcc 7.3.0, avrdude
{"ATmega329", 121, F_AVR8, {0x1E, 0x95, 0x03}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega329A", 122, F_AVR8, {0x1E, 0x95, 0x03}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega329P", 123, F_AVR8, {0x1E, 0x95, 0x0B}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega329PA", 124, F_AVR8, {0x1E, 0x95, 0x0B}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega406", 125, F_AVR8, {0x1E, 0x95, 0x07}, 0, 0x0a000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0800, 2, 1, 23, vtab_atmega406}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega640", 126, F_AVR8, {0x1E, 0x96, 0x08}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x2000, 3, 1, 57, vtab_atmega2561}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega644", 127, F_AVR8, {0x1E, 0x96, 0x09}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 28, vtab_atmega644}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega644A", 128, F_AVR8, {0x1E, 0x96, 0x09}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega644P", 129, F_AVR8, {0x1E, 0x96, 0x0A}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega644PA", 130, F_AVR8, {0x1E, 0x96, 0x0A}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 31, vtab_atmega644pa}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega644RFR2", 131, F_AVR8, {0x1E, 0xA6, 0x03}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0200, 0x2000, 3, 1, 77, vtab_atmega2564rfr2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega645", 132, F_AVR8, {0x1E, 0x96, 0x05}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega645A", 133, F_AVR8, {0x1E, 0x96, 0x05}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega645P", 134, F_AVR8, {0x1E, 0x96, 0x0D}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 22, vtab_atmega645p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega649", 135, F_AVR8, {0x1E, 0x96, 0x03}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega649A", 136, F_AVR8, {0x1E, 0x96, 0x03}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega649P", 137, F_AVR8, {0x1E, 0x96, 0x0B}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 23, vtab_atmega649p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1280", 138, F_AVR8, {0x1E, 0x97, 0x03}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x2000, 3, 1, 57, vtab_atmega2561}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1281", 139, F_AVR8, {0x1E, 0x97, 0x04}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x2000, 3, 1, 57, vtab_atmega2561}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1284", 140, F_AVR8, {0x1E, 0x97, 0x06}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x4000, 3, 1, 35, vtab_atmega1284p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1284P", 141, F_AVR8, {0x1E, 0x97, 0x05}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x4000, 3, 1, 35, vtab_atmega1284p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1284RFR2", 142, F_AVR8, {0x1E, 0xA7, 0x03}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x4000, 3, 1, 77, vtab_atmega2564rfr2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega2560", 143, F_AVR8, {0x1E, 0x98, 0x01}, 0, 0x40000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x2000, 3, 1, 57, vtab_atmega2561}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega2561", 144, F_AVR8, {0x1E, 0x98, 0x02}, 0, 0x40000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0200, 0x2000, 3, 1, 57, vtab_atmega2561}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega2564RFR2", 145, F_AVR8, {0x1E, 0xA8, 0x03}, 0, 0x40000, 0x100, 4, 0x0400, 0, 0x2000, 8, 0x0200, 0x8000, 3, 1, 77, vtab_atmega2564rfr2}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3250", 146, F_AVR8, {0x1E, 0x95, 0x06}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3250A", 147, F_AVR8, {0x1E, 0x95, 0x06}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3250P", 148, F_AVR8, {0x1E, 0x95, 0x0E}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3250PA", 149, F_AVR8, {0x1E, 0x95, 0x0E}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3290", 150, F_AVR8, {0x1E, 0x95, 0x04}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3290A", 151, F_AVR8, {0x1E, 0x95, 0x04}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3290P", 152, F_AVR8, {0x1E, 0x95, 0x0C}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3290PA", 153, F_AVR8, {0x1E, 0x95, 0x0C}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega6450", 154, F_AVR8, {0x1E, 0x96, 0x06}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega6450A", 155, F_AVR8, {0x1E, 0x96, 0x06}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega6450P", 156, F_AVR8, {0x1E, 0x96, 0x0E}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 25, vtab_atmega6450p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega6490", 157, F_AVR8, {0x1E, 0x96, 0x04}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega6490A", 158, F_AVR8, {0x1E, 0x96, 0x04}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega6490P", 159, F_AVR8, {0x1E, 0x96, 0x0C}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 25, vtab_atmega6490p}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega8515", 160, F_AVR8, {0x1E, 0x93, 0x06}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0060, 0x0200, 2, 1, 17, vtab_atmega8515}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega8535", 161, F_AVR8, {0x1E, 0x93, 0x08}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0060, 0x0200, 2, 1, 21, vtab_atmega8535}, // atdf, avr-gcc 12.2.0, avrdude
{"AT43USB320", 162, F_AVR8, {0xff, -1, -1}, 0, 0x10000, -1, -1, -1, -1, -1, -1, 0x0060, 0x0200, -1, -1, 0, NULL}, // avr-gcc 12.2.0
{"AT43USB355", 163, F_AVR8, {0xff, -1, -1}, 0, 0x06000, -1, -1, -1, -1, -1, -1, 0x0060, 0x0400, -1, -1, 0, NULL}, // avr-gcc 12.2.0
{"AT76C711", 164, F_AVR8, {0xff, -1, -1}, 0, 0x04000, -1, -1, -1, -1, -1, -1, 0x0060, 0x07a0, -1, -1, 0, NULL}, // avr-gcc 12.2.0
{"AT86RF401", 165, F_AVR8, {0x1E, 0x91, 0x81}, 0, 0x00800, -1, -1, -1, -1, -1, -1, 0x0060, 0x0080, 0, 1, 3, vtab_at86rf401}, // avr-gcc 12.2.0
{"AT90PWM1", 166, F_AVR8, {0x1E, 0x93, 0x83}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 32, vtab_at90pwm316}, // atdf, avr-gcc 12.2.0
{"AT90PWM2", 167, F_AVR8, {0x1E, 0x93, 0x81}, 0, 0x02000, 0x040, 4, -1, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 32, vtab_at90pwm2}, // avr-gcc 12.2.0, avrdude
{"AT90PWM2B", 168, F_AVR8, {0x1E, 0x93, 0x83}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 32, vtab_at90pwm3b}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90PWM3", 169, F_AVR8, {0x1E, 0x93, 0x81}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 32, vtab_at90pwm3b}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90PWM3B", 170, F_AVR8, {0x1E, 0x93, 0x83}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 32, vtab_at90pwm3b}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90CAN32", 171, F_AVR8, {0x1E, 0x95, 0x81}, 0, 0x08000, 0x100, 4, 0x0400, 0, 0x0400, 8, 0x0100, 0x0800, 3, 1, 37, vtab_at90can128}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90CAN64", 172, F_AVR8, {0x1E, 0x96, 0x81}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 37, vtab_at90can128}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90PWM81", 173, F_AVR8, {0x1E, 0x93, 0x88}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0100, 3, 1, 20, vtab_at90pwm161}, // atdf, avr-gcc 12.2.0
{"AT90USB82", 174, F_AVR8, {0x1E, 0x93, 0x82}, 0, 0x02000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 29, vtab_atmega32u2}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90SCR100", 175, F_AVR8, {0x1E, 0x96, 0xC1}, 0, 0x10000, 0x100, 4, 0x0200, -1, -1, -1, 0x0100, 0x1000, 3, 1, 38, vtab_at90scr100}, // avr-gcc 12.2.0, boot size (manual)
{"AT90CAN128", 176, F_AVR8, {0x1E, 0x97, 0x81}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x1000, 3, 1, 37, vtab_at90can128}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90PWM161", 177, F_AVR8, {0x1E, 0x94, 0x8B}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 20, vtab_at90pwm161}, // atdf, avr-gcc 12.2.0
{"AT90USB162", 178, F_AVR8, {0x1E, 0x94, 0x82}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 29, vtab_atmega32u2}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90PWM216", 179, F_AVR8, {0x1E, 0x94, 0x83}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 32, vtab_at90pwm316}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90PWM316", 180, F_AVR8, {0x1E, 0x94, 0x83}, 0, 0x04000, 0x080, 4, 0x0200, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 32, vtab_at90pwm316}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90USB646", 181, F_AVR8, {0x1E, 0x96, 0x82}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 38, vtab_atmega32u6}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90USB647", 182, F_AVR8, {0x1E, 0x96, 0x82}, 0, 0x10000, 0x100, 4, 0x0400, 0, 0x0800, 8, 0x0100, 0x1000, 3, 1, 38, vtab_atmega32u6}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90S1200", 183, F_AVR8, {0x1E, 0x90, 0x01}, 0, 0x00400, 0x001, -1, -1, 0, 0x0040, 1, 0x0060, 0x0020, 1, 1, 4, vtab_at90s1200}, // avr-gcc 12.2.0, avrdude
{"AT90USB1286", 184, F_AVR8, {0x1E, 0x97, 0x82}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x2000, 3, 1, 38, vtab_atmega32u6}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90USB1287", 185, F_AVR8, {0x1E, 0x97, 0x82}, 0, 0x20000, 0x100, 4, 0x0400, 0, 0x1000, 8, 0x0100, 0x2000, 3, 1, 38, vtab_atmega32u6}, // atdf, avr-gcc 12.2.0, avrdude
{"AT90S2313", 186, F_AVR8, {0x1E, 0x91, 0x01}, 0, 0x00800, 0x001, -1, -1, 0, 0x0080, 1, 0x0060, 0x0080, 1, 1, 11, vtab_at90s2313}, // avr-gcc 12.2.0, avrdude
{"AT90S2323", 187, F_AVR8, {0x1E, 0x91, 0x02}, 0, 0x00800, -1, -1, -1, -1, -1, -1, 0x0060, 0x0080, 1, 1, 3, vtab_attiny22}, // avr-gcc 12.2.0
{"AT90S2333", 188, F_AVR8, {0x1E, 0x91, 0x05}, 0, 0x00800, 0x001, -1, -1, 0, 0x0080, 1, 0x0060, 0x0080, -1, -1, 14, vtab_at90s4433}, // avr-gcc 12.2.0, avrdude
{"AT90S2343", 189, F_AVR8, {0x1E, 0x91, 0x03}, 0, 0x00800, 0x001, -1, -1, 0, 0x0080, 1, 0x0060, 0x0080, 1, 1, 3, vtab_attiny22}, // avr-gcc 12.2.0, avrdude
{"AT90S4414", 190, F_AVR8, {0x1E, 0x92, 0x01}, 0, 0x01000, 0x001, -1, -1, 0, 0x0100, 1, 0x0060, 0x0100, 1, 1, 13, vtab_at90s8515}, // avr-gcc 12.2.0, avrdude
{"AT90S4433", 191, F_AVR8, {0x1E, 0x92, 0x03}, 0, 0x01000, 0x001, -1, -1, 0, 0x0100, 1, 0x0060, 0x0080, 1, 1, 14, vtab_at90s4433}, // avr-gcc 12.2.0, avrdude
{"AT90S4434", 192, F_AVR8, {0x1E, 0x92, 0x02}, 0, 0x01000, 0x001, -1, -1, 0, 0x0100, 1, 0x0060, 0x0100, 1, 1, 17, vtab_at90s8535}, // avr-gcc 12.2.0, avrdude
{"AT90S8515", 193, F_AVR8, {0x1E, 0x93, 0x01}, 0, 0x02000, 0x001, -1, -1, 0, 0x0200, 1, 0x0060, 0x0200, 1, 1, 13, vtab_at90s8515}, // avr-gcc 12.2.0, avrdude
{"AT90C8534", 194, F_AVR8, {0xff, -1, -1}, 0, 0x02000, -1, -1, -1, -1, -1, -1, 0x0060, 0x0100, -1, -1, 0, NULL}, // avr-gcc 12.2.0
{"AT90S8535", 195, F_AVR8, {0x1E, 0x93, 0x03}, 0, 0x02000, 0x001, -1, -1, 0, 0x0200, 1, 0x0060, 0x0200, 1, 1, 17, vtab_at90s8535}, // avr-gcc 12.2.0, avrdude
{"AT94K", 196, F_AVR8, {0xff, -1, -1}, 0, 0x08000, -1, -1, -1, -1, -1, -1, 0x0060, 0x0fa0, -1, -1, 0, NULL}, // avr-gcc 12.2.0
{"ATA5272", 197, F_AVR8, {0x1E, 0x93, 0x87}, 0, 0x02000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 37, vtab_ata5272}, // atdf, avr-gcc 12.2.0
{"ATA5505", 198, F_AVR8, {0x1E, 0x94, 0x87}, 0, 0x04000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny167}, // atdf, avr-gcc 12.2.0
{"ATA5700M322", 199, F_AVR8, {0x1E, 0x95, 0x67}, 0x08000, 0x08000, 0x040, 0, 0, 0, 0x0880, 16, 0x0200, 0x0400, 1, 1, 51, vtab_ata5702m322}, // atdf
{"ATA5702M322", 200, F_AVR8, {0x1E, 0x95, 0x69}, 0x08000, 0x08000, 0x040, 0, 0, 0, 0x0880, 16, 0x0200, 0x0400, 1, 1, 51, vtab_ata5702m322}, // atdf, avr-gcc 12.2.0
{"ATA5781", 201, F_AVR8, {0x1E, 0x95, 0x64}, -1, -1, -1, 0, 0, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf
{"ATA5782", 202, F_AVR8, {0x1E, 0x95, 0x65}, 0x08000, 0x05000, 0x040, 1, 0x5000, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf, avr-gcc 12.2.0
{"ATA5783", 203, F_AVR8, {0x1E, 0x95, 0x66}, -1, -1, -1, 0, 0, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf
{"ATA5787", 204, F_AVR8, {0x1E, 0x94, 0x6C}, 0x08000, 0x05200, 0x040, 0, 0, 0, 0x0400, 16, 0x0200, 0x0800, 1, 1, 44, vtab_ata5835}, // atdf
{"ATA5790", 205, F_AVR8, {0x1E, 0x94, 0x61}, 0, 0x04000, 0x080, 1, 0x0800, 0, 0x0800, 16, 0x0100, 0x0200, 1, 1, 30, vtab_ata5790}, // atdf, avr-gcc 12.2.0
{"ATA5790N", 206, F_AVR8, {0x1E, 0x94, 0x62}, 0, 0x04000, 0x080, 1, 0x0800, 0, 0x0800, 16, 0x0100, 0x0200, 1, 1, 31, vtab_ata5791}, // atdf, avr-gcc 12.2.0
{"ATA5791", 207, F_AVR8, {0x1E, 0x94, 0x62}, 0, 0x04000, 0x080, 1, 0x0800, 0, 0x0800, 16, 0x0100, 0x0200, 1, 1, 31, vtab_ata5791}, // atdf, avr-gcc 7.3.0
{"ATA5795", 208, F_AVR8, {0x1E, 0x93, 0x61}, 0, 0x02000, 0x040, 1, 0x0800, 0, 0x0800, 16, 0x0100, 0x0200, 1, 1, 23, vtab_ata5795}, // atdf, avr-gcc 12.2.0
{"ATA5831", 209, F_AVR8, {0x1E, 0x95, 0x61}, 0x08000, 0x05000, 0x040, 1, 0x5000, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf, avr-gcc 12.2.0
{"ATA5832", 210, F_AVR8, {0x1E, 0x95, 0x62}, -1, -1, -1, 0, 0, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf
{"ATA5833", 211, F_AVR8, {0x1E, 0x95, 0x63}, -1, -1, -1, 0, 0, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf
{"ATA5835", 212, F_AVR8, {0x1E, 0x94, 0x6B}, 0x08000, 0x05200, 0x040, 0, 0, 0, 0x0400, 16, 0x0200, 0x0800, 1, 1, 44, vtab_ata5835}, // atdf
{"ATA6285", 213, F_AVR8, {0x1E, 0x93, 0x82}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0140, 4, 0x0100, 0x0200, 2, 1, 27, vtab_ata6289}, // atdf, avr-gcc 12.2.0
{"ATA6286", 214, F_AVR8, {0x1E, 0x93, 0x82}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0140, 4, 0x0100, 0x0200, 2, 1, 27, vtab_ata6289}, // atdf, avr-gcc 12.2.0
{"ATA6289", 215, F_AVR8, {0x1E, 0x93, 0x82}, 0, 0x02000, 0x040, 4, 0x0100, -1, -1, -1, 0x0100, 0x0200, 2, 1, 27, vtab_ata6289}, // avr-gcc 12.2.0, boot size (manual)
{"ATA6612C", 216, F_AVR8, {0x1E, 0x93, 0x0A}, 0, 0x02000, 0x040, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0
{"ATA6613C", 217, F_AVR8, {0x1E, 0x94, 0x06}, 0, 0x04000, 0x080, 4, 0x0100, 0, 0x0200, 4, 0x0100, 0x0400, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0
{"ATA6614Q", 218, F_AVR8, {0x1E, 0x95, 0x0F}, 0, 0x08000, 0x080, 4, 0x0200, 0, 0x0400, 4, 0x0100, 0x0800, 3, 1, 26, vtab_atmega328p}, // atdf, avr-gcc 12.2.0
{"ATA6616C", 219, F_AVR8, {0x1E, 0x93, 0x87}, 0, 0x02000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny167}, // atdf, avr-gcc 12.2.0
{"ATA6617C", 220, F_AVR8, {0x1E, 0x94, 0x87}, 0, 0x04000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny167}, // atdf, avr-gcc 12.2.0
{"ATA8210", 221, F_AVR8, {0x1E, 0x95, 0x65}, 0x08000, 0x05000, 0x040, 1, 0x5000, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf, avr-gcc 7.3.0
{"ATA8215", 222, F_AVR8, {0x1E, 0x95, 0x64}, -1, -1, -1, 0, 0, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf
{"ATA8510", 223, F_AVR8, {0x1E, 0x95, 0x61}, 0x08000, 0x05000, 0x040, 1, 0x5000, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf, avr-gcc 7.3.0
{"ATA8515", 224, F_AVR8, {0x1E, 0x95, 0x63}, -1, -1, -1, 0, 0, 0, 0x0400, 16, 0x0200, 0x0400, 1, 1, 42, vtab_ata8515}, // atdf
{"ATA664251", 225, F_AVR8, {0x1E, 0x94, 0x87}, 0, 0x04000, 0x080, 0, 0, 0, 0x0200, 4, 0x0100, 0x0200, 3, 1, 20, vtab_attiny167}, // atdf, avr-gcc 12.2.0
{"M3000", 226, F_AVR8, {0xff, -1, -1}, 0, 0x10000, -1, -1, -1, -1, -1, -1, 0x1000, 0x1000, -1, -1, 0, NULL}, // avr-gcc 12.2.0
{"LGT8F88P", 227, F_AVR8, {0x1E, 0x93, 0x0F}, 0, 0x02000, 0x040, -1, -1, 0, 0x0200, 4, -1, -1, -1, -1, 0, NULL}, // avrdude
{"LGT8F168P", 228, F_AVR8, {0x1E, 0x94, 0x0B}, 0, 0x04000, 0x080, -1, -1, 0, 0x0200, 4, -1, -1, -1, -1, 0, NULL}, // avrdude
{"LGT8F328P", 229, F_AVR8, {0x1E, 0x95, 0x0F}, 0, 0x08000, 0x080, -1, -1, 0, 0x0400, 4, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATxmega8E5", 230, F_XMEGA, {0x1E, 0x93, 0x41}, 0, 0x02800, 0x080, 1, 0x0800, 0, 0x0200, 32, 0x2000, 0x0400, 7, 1, 43, vtab_atxmega32e5}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega16A4", 231, F_XMEGA, {0x1E, 0x94, 0x41}, 0, 0x05000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x0800, 6, 1, 94, vtab_atxmega32a4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega16A4U", 232, F_XMEGA, {0x1E, 0x94, 0x41}, 0, 0x05000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x0800, 6, 1, 127, vtab_atxmega128a4u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega16C4", 233, F_XMEGA, {0x1E, 0x94, 0x43}, 0, 0x05000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x0800, 6, 1, 127, vtab_atxmega32c4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega16D4", 234, F_XMEGA, {0x1E, 0x94, 0x42}, 0, 0x05000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x0800, 6, 1, 91, vtab_atxmega32d4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega16E5", 235, F_XMEGA, {0x1E, 0x94, 0x45}, 0, 0x05000, 0x080, 1, 0x1000, 0, 0x0200, 32, 0x2000, 0x0800, 7, 1, 43, vtab_atxmega32e5}, // atdf, avr-gcc 7.3.0, avrdude
{"ATxmega32C3", 236, F_XMEGA, {0x1E, 0x95, 0x49}, 0, 0x09000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega256c3}, // atdf, avr-gcc 12.2.0
{"ATxmega32D3", 237, F_XMEGA, {0x1E, 0x95, 0x4A}, 0, 0x09000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 6, 1, 114, vtab_atxmega384d3}, // atdf, avr-gcc 12.2.0
{"ATxmega32A4", 238, F_XMEGA, {0x1E, 0x95, 0x41}, 0, 0x09000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 6, 1, 94, vtab_atxmega32a4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega32A4U", 239, F_XMEGA, {0x1E, 0x95, 0x41}, 0, 0x09000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega128a4u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega32C4", 240, F_XMEGA, {0x1E, 0x95, 0x44}, 0, 0x09000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega32c4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega32D4", 241, F_XMEGA, {0x1E, 0x95, 0x42}, 0, 0x09000, 0x100, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 6, 1, 91, vtab_atxmega32d4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega32E5", 242, F_XMEGA, {0x1E, 0x95, 0x4C}, 0, 0x09000, 0x080, 1, 0x1000, 0, 0x0400, 32, 0x2000, 0x1000, 7, 1, 43, vtab_atxmega32e5}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64A1", 243, F_XMEGA, {0x1E, 0x96, 0x4E}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 125, vtab_atxmega128a1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64A1U", 244, F_XMEGA, {0x1E, 0x96, 0x4E}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega128a1u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64B1", 245, F_XMEGA, {0x1E, 0x96, 0x52}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 81, vtab_atxmega128b1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64A3", 246, F_XMEGA, {0x1E, 0x96, 0x42}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 122, vtab_atxmega256a3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64A3U", 247, F_XMEGA, {0x1E, 0x96, 0x42}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega256a3u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64B3", 248, F_XMEGA, {0x1E, 0x96, 0x51}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 54, vtab_atxmega128b3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64C3", 249, F_XMEGA, {0x1E, 0x96, 0x49}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega256c3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64D3", 250, F_XMEGA, {0x1E, 0x96, 0x4A}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 114, vtab_atxmega384d3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64A4", 251, F_XMEGA, {0x1E, 0x96, 0x46}, 0, 0x11000, 0x100, -1, -1, 0, 0x0800, 32, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATxmega64A4U", 252, F_XMEGA, {0x1E, 0x96, 0x46}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 127, vtab_atxmega128a4u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega64D4", 253, F_XMEGA, {0x1E, 0x96, 0x47}, 0, 0x11000, 0x100, 1, 0x1000, 0, 0x0800, 32, 0x2000, 0x1000, 6, 1, 91, vtab_atxmega128d4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128A1", 254, F_XMEGA, {0x1E, 0x97, 0x4C}, 0, 0x22000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 125, vtab_atxmega128a1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128A1revD", 255, F_XMEGA, {0x1E, 0x97, 0x41}, 0, 0x22000, 0x200, -1, -1, 0, 0x0800, 32, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATxmega128A1U", 256, F_XMEGA, {0x1E, 0x97, 0x4C}, 0, 0x22000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 127, vtab_atxmega128a1u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128B1", 257, F_XMEGA, {0x1E, 0x97, 0x4D}, 0, 0x22000, 0x100, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 81, vtab_atxmega128b1}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128A3", 258, F_XMEGA, {0x1E, 0x97, 0x42}, 0, 0x22000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 122, vtab_atxmega256a3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128A3U", 259, F_XMEGA, {0x1E, 0x97, 0x42}, 0, 0x22000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 127, vtab_atxmega256a3u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128B3", 260, F_XMEGA, {0x1E, 0x97, 0x4B}, 0, 0x22000, 0x100, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 54, vtab_atxmega128b3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128C3", 261, F_XMEGA, {0x1E, 0x97, 0x52}, 0, 0x22000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 127, vtab_atxmega256c3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128D3", 262, F_XMEGA, {0x1E, 0x97, 0x48}, 0, 0x22000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 114, vtab_atxmega384d3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128A4", 263, F_XMEGA, {0x1E, 0x97, 0x46}, 0, 0x22000, 0x200, -1, -1, 0, 0x0800, 32, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATxmega128A4U", 264, F_XMEGA, {0x1E, 0x97, 0x46}, 0, 0x22000, 0x100, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 127, vtab_atxmega128a4u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega128D4", 265, F_XMEGA, {0x1E, 0x97, 0x47}, 0, 0x22000, 0x100, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x2000, 6, 1, 91, vtab_atxmega128d4}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega192A1", 266, F_XMEGA, {0x1E, 0x97, 0x4E}, 0, 0x32000, 0x200, -1, -1, 0, 0x0800, 32, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATxmega192A3", 267, F_XMEGA, {0x1E, 0x97, 0x44}, 0, 0x32000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x4000, 6, 1, 122, vtab_atxmega256a3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega192A3U", 268, F_XMEGA, {0x1E, 0x97, 0x44}, 0, 0x32000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x4000, 6, 1, 127, vtab_atxmega256a3u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega192C3", 269, F_XMEGA, {0x1E, 0x97, 0x51}, 0, 0x32000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x4000, 6, 1, 127, vtab_atxmega256c3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega192D3", 270, F_XMEGA, {0x1E, 0x97, 0x49}, 0, 0x32000, 0x200, 1, 0x2000, 0, 0x0800, 32, 0x2000, 0x4000, 6, 1, 114, vtab_atxmega384d3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega256A1", 271, F_XMEGA, {0x1E, 0x98, 0x46}, 0, 0x42000, 0x200, -1, -1, 0, 0x1000, 32, -1, -1, -1, -1, 0, NULL}, // avrdude
{"ATxmega256A3", 272, F_XMEGA, {0x1E, 0x98, 0x42}, 0, 0x42000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x4000, 6, 1, 122, vtab_atxmega256a3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega256A3B", 273, F_XMEGA, {0x1E, 0x98, 0x43}, 0, 0x42000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x4000, 6, 1, 122, vtab_atxmega256a3b}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega256A3BU", 274, F_XMEGA, {0x1E, 0x98, 0x43}, 0, 0x42000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x4000, 6, 1, 127, vtab_atxmega256a3bu}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega256A3U", 275, F_XMEGA, {0x1E, 0x98, 0x42}, 0, 0x42000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x4000, 6, 1, 127, vtab_atxmega256a3u}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega256C3", 276, F_XMEGA, {0x1E, 0x98, 0x46}, 0, 0x42000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x4000, 6, 1, 127, vtab_atxmega256c3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega256D3", 277, F_XMEGA, {0x1E, 0x98, 0x44}, 0, 0x42000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x4000, 6, 1, 114, vtab_atxmega384d3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega384C3", 278, F_XMEGA, {0x1E, 0x98, 0x45}, 0, 0x62000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x8000, 6, 1, 127, vtab_atxmega384c3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATxmega384D3", 279, F_XMEGA, {0x1E, 0x98, 0x47}, 0, 0x62000, 0x200, 1, 0x2000, 0, 0x1000, 32, 0x2000, 0x8000, 6, 1, 114, vtab_atxmega384d3}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny202", 280, F_AVR8X, {0x1E, 0x91, 0x23}, 0, 0x00800, 0x040, 1, 0, 0x01400, 0x0040, 32, 0x3f80, 0x0080, 10, 1, 26, vtab_attiny402}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny204", 281, F_AVR8X, {0x1E, 0x91, 0x22}, 0, 0x00800, 0x040, 1, 0, 0x01400, 0x0040, 32, 0x3f80, 0x0080, 10, 1, 26, vtab_attiny404}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny212", 282, F_AVR8X, {0x1E, 0x91, 0x21}, 0, 0x00800, 0x040, 1, 0, 0x01400, 0x0040, 32, 0x3f80, 0x0080, 10, 1, 26, vtab_attiny412}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny214", 283, F_AVR8X, {0x1E, 0x91, 0x20}, 0, 0x00800, 0x040, 1, 0, 0x01400, 0x0040, 32, 0x3f80, 0x0080, 10, 1, 26, vtab_attiny814}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny402", 284, F_AVR8X, {0x1E, 0x92, 0x27}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny402}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny404", 285, F_AVR8X, {0x1E, 0x92, 0x26}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny404}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny406", 286, F_AVR8X, {0x1E, 0x92, 0x25}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny406}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny412", 287, F_AVR8X, {0x1E, 0x92, 0x23}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny412}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny414", 288, F_AVR8X, {0x1E, 0x92, 0x22}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny814}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny416", 289, F_AVR8X, {0x1E, 0x92, 0x21}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny817}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny416auto", 290, F_AVR8X, {0x1E, 0x92, 0x28}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny817}, // atdf
{"ATtiny417", 291, F_AVR8X, {0x1E, 0x92, 0x20}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3f00, 0x0100, 10, 1, 26, vtab_attiny817}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny424", 292, F_AVR8X, {0x1E, 0x92, 0x2C}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny426", 293, F_AVR8X, {0x1E, 0x92, 0x2B}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny427", 294, F_AVR8X, {0x1E, 0x92, 0x2A}, 0, 0x01000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny804", 295, F_AVR8X, {0x1E, 0x93, 0x25}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 31, vtab_attiny1607}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny806", 296, F_AVR8X, {0x1E, 0x93, 0x24}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 31, vtab_attiny1607}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny807", 297, F_AVR8X, {0x1E, 0x93, 0x23}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 31, vtab_attiny1607}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny814", 298, F_AVR8X, {0x1E, 0x93, 0x22}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 26, vtab_attiny814}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny816", 299, F_AVR8X, {0x1E, 0x93, 0x21}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 26, vtab_attiny817}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny817", 300, F_AVR8X, {0x1E, 0x93, 0x20}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3e00, 0x0200, 10, 1, 26, vtab_attiny817}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny824", 301, F_AVR8X, {0x1E, 0x93, 0x29}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3c00, 0x0400, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny826", 302, F_AVR8X, {0x1E, 0x93, 0x28}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3c00, 0x0400, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny827", 303, F_AVR8X, {0x1E, 0x93, 0x27}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0080, 32, 0x3c00, 0x0400, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny1604", 304, F_AVR8X, {0x1E, 0x94, 0x25}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3c00, 0x0400, 10, 1, 31, vtab_attiny1607}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1606", 305, F_AVR8X, {0x1E, 0x94, 0x24}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3c00, 0x0400, 10, 1, 31, vtab_attiny1607}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1607", 306, F_AVR8X, {0x1E, 0x94, 0x23}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3c00, 0x0400, 10, 1, 31, vtab_attiny1607}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1614", 307, F_AVR8X, {0x1E, 0x94, 0x22}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 31, vtab_attiny1614}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1616", 308, F_AVR8X, {0x1E, 0x94, 0x21}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 31, vtab_attiny3217}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1617", 309, F_AVR8X, {0x1E, 0x94, 0x20}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 31, vtab_attiny3217}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny1624", 310, F_AVR8X, {0x1E, 0x94, 0x2A}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny1626", 311, F_AVR8X, {0x1E, 0x94, 0x29}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny1627", 312, F_AVR8X, {0x1E, 0x94, 0x28}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny3214", 313, F_AVR8X, {0x1E, 0x95, 0x20}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3800, 0x0800, 10, 1, 31, vtab_attiny3214}, // avr-gcc 12.2.0
{"ATtiny3216", 314, F_AVR8X, {0x1E, 0x95, 0x21}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3800, 0x0800, 10, 1, 31, vtab_attiny3217}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny3217", 315, F_AVR8X, {0x1E, 0x95, 0x22}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3800, 0x0800, 10, 1, 31, vtab_attiny3217}, // atdf, avr-gcc 12.2.0, avrdude
{"ATtiny3224", 316, F_AVR8X, {0x1E, 0x95, 0x28}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3400, 0x0c00, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny3226", 317, F_AVR8X, {0x1E, 0x95, 0x27}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3400, 0x0c00, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATtiny3227", 318, F_AVR8X, {0x1E, 0x95, 0x26}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3400, 0x0c00, 10, 1, 30, vtab_attiny3227}, // atdf, avrdude
{"ATmega808", 319, F_AVR8X, {0x1E, 0x93, 0x26}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3c00, 0x0400, 10, 1, 36, vtab_atmega4808}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega809", 320, F_AVR8X, {0x1E, 0x93, 0x2A}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3c00, 0x0400, 10, 1, 40, vtab_atmega4809}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1608", 321, F_AVR8X, {0x1E, 0x94, 0x27}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 36, vtab_atmega4808}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega1609", 322, F_AVR8X, {0x1E, 0x94, 0x26}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0100, 32, 0x3800, 0x0800, 10, 1, 40, vtab_atmega4809}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3208", 323, F_AVR8X, {0x1E, 0x95, 0x30}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3000, 0x1000, 10, 1, 36, vtab_atmega4808}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega3209", 324, F_AVR8X, {0x1E, 0x95, 0x31}, 0, 0x08000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x3000, 0x1000, 10, 1, 40, vtab_atmega4809}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega4808", 325, F_AVR8X, {0x1E, 0x96, 0x50}, 0, 0x0c000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x2800, 0x1800, 10, 1, 36, vtab_atmega4808}, // atdf, avr-gcc 12.2.0, avrdude
{"ATmega4809", 326, F_AVR8X, {0x1E, 0x96, 0x51}, 0, 0x0c000, 0x080, 1, 0, 0x01400, 0x0100, 64, 0x2800, 0x1800, 10, 1, 40, vtab_atmega4809}, // atdf, avr-gcc 12.2.0, avrdude
{"AVR8EA28", 327, F_AVR8X, {0x1E, 0x93, 0x2C}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR8EA32", 328, F_AVR8X, {0x1E, 0x93, 0x2B}, 0, 0x02000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR16DD14", 329, F_AVR8X, {0x1E, 0x94, 0x34}, 0, 0x04000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7800, 0x0800, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR16DD20", 330, F_AVR8X, {0x1E, 0x94, 0x33}, 0, 0x04000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7800, 0x0800, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR16DD28", 331, F_AVR8X, {0x1E, 0x94, 0x32}, 0, 0x04000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7800, 0x0800, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR16EA28", 332, F_AVR8X, {0x1E, 0x94, 0x37}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR16DD32", 333, F_AVR8X, {0x1E, 0x94, 0x31}, 0, 0x04000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7800, 0x0800, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR16EA32", 334, F_AVR8X, {0x1E, 0x94, 0x36}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR16EA48", 335, F_AVR8X, {0x1E, 0x94, 0x35}, 0, 0x04000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR32DD14", 336, F_AVR8X, {0x1E, 0x95, 0x3B}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7000, 0x1000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR32DD20", 337, F_AVR8X, {0x1E, 0x95, 0x3A}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7000, 0x1000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR32DA28", 338, F_AVR8X, {0x1E, 0x95, 0x34}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x7000, 0x1000, 16, 4, 41, vtab_avr128da28}, // atdf, avrdude
{"AVR32DB28", 339, F_AVR8X, {0x1E, 0x95, 0x37}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x7000, 0x1000, 16, 4, 42, vtab_avr128db28}, // atdf, avrdude
{"AVR32DD28", 340, F_AVR8X, {0x1E, 0x95, 0x39}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7000, 0x1000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR32EA28", 341, F_AVR8X, {0x1E, 0x95, 0x3E}, 0, 0x08000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR32DA32", 342, F_AVR8X, {0x1E, 0x95, 0x33}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x7000, 0x1000, 16, 4, 44, vtab_avr128da32}, // atdf, avrdude
{"AVR32DB32", 343, F_AVR8X, {0x1E, 0x95, 0x36}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x7000, 0x1000, 16, 4, 44, vtab_avr128db32}, // atdf, avrdude
{"AVR32DD32", 344, F_AVR8X, {0x1E, 0x95, 0x38}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x7000, 0x1000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR32EA32", 345, F_AVR8X, {0x1E, 0x95, 0x3D}, 0, 0x08000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR32DA48", 346, F_AVR8X, {0x1E, 0x95, 0x32}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x7000, 0x1000, 16, 4, 58, vtab_avr128da48}, // atdf, avrdude
{"AVR32DB48", 347, F_AVR8X, {0x1E, 0x95, 0x35}, 0, 0x08000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x7000, 0x1000, 16, 4, 61, vtab_avr128db48}, // atdf, avrdude
{"AVR32EA48", 348, F_AVR8X, {0x1E, 0x95, 0x3C}, 0, 0x08000, 0x040, 1, 0, 0x01400, 0x0200, 8, -1, -1, -1, -1, 0, NULL}, // avrdude
{"AVR64DD14", 349, F_AVR8X, {0x1E, 0x96, 0x1D}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x6000, 0x2000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR64DD20", 350, F_AVR8X, {0x1E, 0x96, 0x1C}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x6000, 0x2000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR64DA28", 351, F_AVR8X, {0x1E, 0x96, 0x15}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 41, vtab_avr128da28}, // atdf, avrdude
{"AVR64DB28", 352, F_AVR8X, {0x1E, 0x96, 0x19}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 42, vtab_avr128db28}, // atdf, avrdude
{"AVR64DD28", 353, F_AVR8X, {0x1E, 0x96, 0x1B}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x6000, 0x2000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR64EA28", 354, F_AVR8X, {0x1E, 0x96, 0x20}, 0, 0x10000, 0x080, 1, 0, 0x01400, 0x0200, 8, 0x6800, 0x1800, 16, 4, 37, vtab_avr64ea32}, // atdf, avrdude
{"AVR64DA32", 355, F_AVR8X, {0x1E, 0x96, 0x14}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 44, vtab_avr128da32}, // atdf, avrdude
{"AVR64DB32", 356, F_AVR8X, {0x1E, 0x96, 0x18}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 44, vtab_avr128db32}, // atdf, avrdude
{"AVR64DD32", 357, F_AVR8X, {0x1E, 0x96, 0x1A}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0100, 1, 0x6000, 0x2000, 16, 4, 36, vtab_avr64dd32}, // atdf, avrdude
{"AVR64EA32", 358, F_AVR8X, {0x1E, 0x96, 0x1F}, 0, 0x10000, 0x080, 1, 0, 0x01400, 0x0200, 8, 0x6800, 0x1800, 16, 4, 37, vtab_avr64ea32}, // atdf, avrdude
{"AVR64DA48", 359, F_AVR8X, {0x1E, 0x96, 0x13}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 58, vtab_avr128da48}, // atdf, avrdude
{"AVR64DB48", 360, F_AVR8X, {0x1E, 0x96, 0x17}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 61, vtab_avr128db48}, // atdf, avrdude
{"AVR64EA48", 361, F_AVR8X, {0x1E, 0x96, 0x1E}, 0, 0x10000, 0x080, 1, 0, 0x01400, 0x0200, 8, 0x6800, 0x1800, 16, 4, 45, vtab_avr64ea48}, // atdf, avrdude
{"AVR64DA64", 362, F_AVR8X, {0x1E, 0x96, 0x12}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 64, vtab_avr128da64}, // atdf, avrdude
{"AVR64DB64", 363, F_AVR8X, {0x1E, 0x96, 0x16}, 0, 0x10000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x6000, 0x2000, 16, 4, 65, vtab_avr128db64}, // atdf, avrdude
{"AVR128DA28", 364, F_AVR8X, {0x1E, 0x97, 0x0A}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 41, vtab_avr128da28}, // atdf, avrdude
{"AVR128DB28", 365, F_AVR8X, {0x1E, 0x97, 0x0E}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 42, vtab_avr128db28}, // atdf, avrdude
{"AVR128DA32", 366, F_AVR8X, {0x1E, 0x97, 0x09}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 44, vtab_avr128da32}, // atdf, avrdude
{"AVR128DB32", 367, F_AVR8X, {0x1E, 0x97, 0x0D}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 44, vtab_avr128db32}, // atdf, avrdude
{"AVR128DA48", 368, F_AVR8X, {0x1E, 0x97, 0x08}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 58, vtab_avr128da48}, // atdf, avrdude
{"AVR128DB48", 369, F_AVR8X, {0x1E, 0x97, 0x0C}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 61, vtab_avr128db48}, // atdf, avrdude
{"AVR128DA64", 370, F_AVR8X, {0x1E, 0x97, 0x07}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 64, vtab_avr128da64}, // atdf, avrdude
{"AVR128DB64", 371, F_AVR8X, {0x1E, 0x97, 0x0B}, 0, 0x20000, 0x200, 1, 0, 0x01400, 0x0200, 1, 0x4000, 0x4000, 16, 4, 65, vtab_avr128db64}, // atdf, avrdude
};
const char * const vtab_attiny9[vts_attiny9] = { // ATtiny9, ATtiny4
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"TIM0_CAPT", // 3: Timer 0 Capture Event
"TIM0_OVF", // 4: Timer 0 Overflow
"TIM0_COMPA", // 5: Timer 0 Compare Match A
"TIM0_COMPB", // 6: Timer 0 Compare Match B
"ANA_COMP", // 7: Analog Comparator
"WDT", // 8: Watchdog Time-out
"VLM", // 9: Vcc Voltage Level Monitor
};
const char * const vtab_attiny10[vts_attiny10] = { // ATtiny10, ATtiny5
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"TIM0_CAPT", // 3: Timer 0 Capture Event
"TIM0_OVF", // 4: Timer 0 Overflow
"TIM0_COMPA", // 5: Timer 0 Compare Match A
"TIM0_COMPB", // 6: Timer 0 Compare Match B
"ANA_COMP", // 7: Analog Comparator
"WDT", // 8: Watchdog Time-out
"VLM", // 9: Vcc Voltage Level Monitor
"ADC", // 10: ADC Conversion Complete
};
const char * const vtab_attiny20[vts_attiny20] = { // ATtiny20
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"WDT", // 4: Watchdog Time-out
"TIM1_CAPT", // 5: Timer 1 Capture Event
"TIM1_COMPA", // 6: Timer 1 Compare Match A
"TIM1_COMPB", // 7: Timer 1 Compare Match B
"TIM1_OVF", // 8: Timer 1 Overflow
"TIM0_COMPA", // 9: Timer 0 Compare Match A
"TIM0_COMPB", // 10: Timer 0 Compare Match B
"TIM0_OVF", // 11: Timer 0 Overflow
"ANA_COMP", // 12: Analog Comparator
"ADC_ADC", // 13: Conversion Complete
"TWI_SLAVE", // 14: 2-Wire Interface Periphery
"SPI", // 15: SPI Serial Peripheral Interface
"QTRIP", // 16: Touch Sensing
};
const char * const vtab_attiny40[vts_attiny40] = { // ATtiny40
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"PCINT2", // 4: Pin Change Interrupt 2
"WDT", // 5: Watchdog Time-out
"TIM1_CAPT", // 6: Timer 1 Capture Event
"TIM1_COMPA", // 7: Timer 1 Compare Match A
"TIM1_COMPB", // 8: Timer 1 Compare Match B
"TIM1_OVF", // 9: Timer 1 Overflow
"TIM0_COMPA", // 10: Timer 0 Compare Match A
"TIM0_COMPB", // 11: Timer 0 Compare Match B
"TIM0_OVF", // 12: Timer 0 Overflow
"ANA_COMP", // 13: Analog Comparator
"ADC", // 14: ADC Conversion Complete
"TWI_SLAVE", // 15: 2-Wire Interface Periphery
"SPI", // 16: SPI Serial Peripheral Interface
"QTRIP", // 17: Touch Sensing
};
const char * const vtab_attiny104[vts_attiny104] = { // ATtiny104, ATtiny102
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"TIM0_CAPT", // 4: Timer 0 Capture Event
"TIM0_OVF", // 5: Timer 0 Overflow
"TIM0_COMPA", // 6: Timer 0 Compare Match A
"TIM0_COMPB", // 7: Timer 0 Compare Match B
"ANA_COMP", // 8: Analog Comparator
"WDT", // 9: Watchdog Time-out
"VLM", // 10: Vcc Voltage Level Monitor
"ADC", // 11: ADC Conversion Complete
"USART_RXS", // 12: USART Receive Start
"USART_RXC", // 13: USART Receive Complete
"USART_DRE", // 14: USART Data Register Empty
"USART_TXC", // 15: USART Transmit Complete
};
const char * const vtab_attiny11[vts_attiny11] = { // ATtiny11
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"IO_PINS", // 2: External Interrupt
"TIMER0_OVF", // 3: Timer 0 Overflow
"ANA_COMP", // 4: Analog Comparator
};
const char * const vtab_attiny12[vts_attiny12] = { // ATtiny12
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"IO_PINS", // 2: External Interrupt
"TIMER0_OVF", // 3: Timer 0 Overflow
"EE_RDY", // 4: EEPROM Ready
"ANA_COMP", // 5: Analog Comparator
};
const char * const vtab_attiny13a[vts_attiny13a] = { // ATtiny13A, ATtiny13
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"TIM0_OVF", // 3: Timer 0 Overflow
"EE_RDY", // 4: EEPROM Ready
"ANA_COMP", // 5: Analog Comparator
"TIM0_COMPA", // 6: Timer 0 Compare Match A
"TIM0_COMPB", // 7: Timer 0 Compare Match B
"WDT", // 8: Watchdog Time-out
"ADC", // 9: ADC Conversion Complete
};
const char * const vtab_attiny15[vts_attiny15] = { // ATtiny15
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"IO_PINS", // 2: External Interrupt
"TIMER1_COMP", // 3: Timer 1 Compare
"TIMER1_OVF", // 4: Timer 1 Overflow
"TIMER0_OVF", // 5: Timer 0 Overflow
"EE_RDY", // 6: EEPROM Ready
"ANA_COMP", // 7: Analog Comparator
"ADC", // 8: ADC Conversion Complete
};
const char * const vtab_attiny22[vts_attiny22] = { // ATtiny22, AT90S2343, AT90S2323
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"TIMER0_OVF0", // 2: Timer 0 Overflow
};
const char * const vtab_attiny26[vts_attiny26] = { // ATtiny26
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"IO_PINS", // 2: External Interrupt
"TIMER1_CMPA", // 3: Timer 1 Compare Match A
"TIMER1_CMPB", // 4: Timer 1 Compare Match B
"TIMER1_OVF1", // 5: Timer 1 Overflow
"TIMER0_OVF0", // 6: Timer 0 Overflow
"USI_STRT", // 7: USI Start Condition
"USI_OVF", // 8: USI Overflow
"EE_RDY", // 9: EEPROM Ready
"ANA_COMP", // 10: Analog Comparator
"ADC", // 11: ADC Conversion Complete
};
const char * const vtab_attiny28[vts_attiny28] = { // ATtiny28
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"LOW_LEVEL_IO_PINS", // 3: Low-level Input
"TIMER0_OVF", // 4: Timer 0 Overflow
"ANA_COMP", // 5: Analog Comparator
};
const char * const vtab_attiny43u[vts_attiny43u] = { // ATtiny43U
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"WDT", // 4: Watchdog Time-out
"TIM1_COMPA", // 5: Timer 1 Compare Match A
"TIM1_COMPB", // 6: Timer 1 Compare Match B
"TIM1_OVF", // 7: Timer 1 Overflow
"TIM0_COMPA", // 8: Timer 0 Compare Match A
"TIM0_COMPB", // 9: Timer 0 Compare Match B
"TIM0_OVF", // 10: Timer 0 Overflow
"ANA_COMP", // 11: Analog Comparator
"ADC", // 12: ADC Conversion Complete
"EE_RDY", // 13: EEPROM Ready
"USI_START", // 14: USI Start Condition
"USI_OVF", // 15: USI Overflow
};
const char * const vtab_attiny84a[vts_attiny84a] = { // ATtiny84A, ATtiny84, ATtiny44A, ATtiny44, ATtiny24A, ATtiny24
"RESET", // 0: Reset (various reasons)
"EXT_INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"WDT", // 4: Watchdog Time-out
"TIM1_CAPT", // 5: Timer 1 Capture Event
"TIM1_COMPA", // 6: Timer 1 Compare Match A
"TIM1_COMPB", // 7: Timer 1 Compare Match B
"TIM1_OVF", // 8: Timer 1 Overflow
"TIM0_COMPA", // 9: Timer 0 Compare Match A
"TIM0_COMPB", // 10: Timer 0 Compare Match B
"TIM0_OVF", // 11: Timer 0 Overflow
"ANA_COMP", // 12: Analog Comparator
"ADC", // 13: ADC Conversion Complete
"EE_RDY", // 14: EEPROM Ready
"USI_STR", // 15: USI Start Condition
"USI_OVF", // 16: USI Overflow
};
const char * const vtab_attiny85[vts_attiny85] = { // ATtiny85, ATtiny45, ATtiny25
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"TIMER1_COMPA", // 3: Timer 1 Compare Match A
"TIMER1_OVF", // 4: Timer 1 Overflow
"TIMER0_OVF", // 5: Timer 0 Overflow
"EE_RDY", // 6: EEPROM Ready
"ANA_COMP", // 7: Analog Comparator
"ADC", // 8: ADC Conversion Complete
"TIMER1_COMPB", // 9: Timer 1 Compare Match B
"TIMER0_COMPA", // 10: Timer 0 Compare Match A
"TIMER0_COMPB", // 11: Timer 0 Compare Match B
"WDT", // 12: Watchdog Time-out
"USI_START", // 13: USI Start Condition
"USI_OVF", // 14: USI Overflow
};
const char * const vtab_attiny88[vts_attiny88] = { // ATtiny88, ATtiny48
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"PCINT3", // 6: Pin Change Interrupt 3
"WDT", // 7: Watchdog Time-out
"TIMER1_CAPT", // 8: Timer 1 Capture Event
"TIMER1_COMPA", // 9: Timer 1 Compare Match A
"TIMER1_COMPB", // 10: Timer 1 Compare Match B
"TIMER1_OVF", // 11: Timer 1 Overflow
"TIMER0_COMPA", // 12: Timer 0 Compare Match A
"TIMER0_COMPB", // 13: Timer 0 Compare Match B
"TIMER0_OVF", // 14: Timer 0 Overflow
"SPI_STC", // 15: SPI Serial Transfer Complete
"ADC", // 16: ADC Conversion Complete
"EE_RDY", // 17: EEPROM Ready
"ANALOG_COMP", // 18: Analog Comparator
"TWI", // 19: 2-Wire Interface
};
const char * const vtab_attiny167[vts_attiny167] = { // ATtiny167, ATtiny87, ATA664251, ATA6617C, ATA6616C, ATA5505
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"WDT", // 5: Watchdog Time-out
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMPA", // 10: Timer 0 Compare Match A
"TIMER0_OVF", // 11: Timer 0 Overflow
"LIN_TC", // 12: LIN Transfer Complete
"LIN_ERR", // 13: LIN Error
"SPI_STC", // 14: SPI Serial Transfer Complete
"ADC", // 15: ADC Conversion Complete
"EE_RDY", // 16: EEPROM Ready
"ANA_COMP", // 17: Analog Comparator
"USI_START", // 18: USI Start Condition
"USI_OVF", // 19: USI Overflow
};
const char * const vtab_attiny828[vts_attiny828] = { // ATtiny828
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"PCINT3", // 6: Pin Change Interrupt 3
"WDT", // 7: Watchdog Time-out
"TIMER1_CAPT", // 8: Timer 1 Capture Event
"TIMER1_COMPA", // 9: Timer 1 Compare Match A
"TIMER1_COMPB", // 10: Timer 1 Compare Match B
"TIMER1_OVF", // 11: Timer 1 Overflow
"TIMER0_COMPA", // 12: Timer 0 Compare Match A
"TIMER0_COMPB", // 13: Timer 0 Compare Match B
"TIMER0_OVF", // 14: Timer 0 Overflow
"SPI_STC", // 15: SPI Serial Transfer Complete
"USART_START", // 16: USART Start
"USART_RX", // 17: USART Receive Complete
"USART_UDRE", // 18: USART Data Register Empty
"USART_TX", // 19: USART Transmit Complete
"ADC", // 20: ADC Conversion Complete
"EE_READY", // 21: EEPROM Ready
"ANALOG_COMP", // 22: Analog Comparator
"TWI_SLAVE", // 23: 2-Wire Interface Periphery
"SPM_Ready", // 24: Store Program Memory Ready
"QTRIP", // 25: Touch Sensing
};
const char * const vtab_attiny841[vts_attiny841] = { // ATtiny841, ATtiny441
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"WDT", // 4: Watchdog Time-out
"TIMER1_CAPT", // 5: Timer 1 Capture Event
"TIMER1_COMPA", // 6: Timer 1 Compare Match A
"TIMER1_COMPB", // 7: Timer 1 Compare Match B
"TIMER1_OVF", // 8: Timer 1 Overflow
"TIMER0_COMPA", // 9: Timer 0 Compare Match A
"TIMER0_COMPB", // 10: Timer 0 Compare Match B
"TIMER0_OVF", // 11: Timer 0 Overflow
"ANA_COMP0", // 12: Analog Comparator 0
"ADC", // 13: ADC Conversion Complete
"EE_RDY", // 14: EEPROM Ready
"ANA_COMP1", // 15: Analog Comparator 1
"TIMER2_CAPT", // 16: Timer 2 Capture Event
"TIMER2_COMPA", // 17: Timer 2 Compare Match A
"TIMER2_COMPB", // 18: Timer 2 Compare Match B
"TIMER2_OVF", // 19: Timer 2 Overflow
"SPI", // 20: SPI Serial Peripheral Interface
"USART0_START", // 21: USART 0 Receive Start
"USART0_RX", // 22: USART 0 Receive Complete
"USART0_UDRE", // 23: USART 0 Data Register Empty
"USART0_TX", // 24: USART 0 Transmit Complete
"USART1_START", // 25: USART 1 Receive Start
"USART1_RX", // 26: USART 1 Receive Complete
"USART1_UDRE", // 27: USART 1 Data Register Empty
"USART1_TX", // 28: USART 1 Transmit Complete
"TWI_SLAVE", // 29: 2-Wire Interface Periphery
};
const char * const vtab_attiny861a[vts_attiny861a] = { // ATtiny861A, ATtiny861, ATtiny461A, ATtiny461, ATtiny261A, ATtiny261
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT", // 2: Pin Change Interrupt
"TIMER1_COMPA", // 3: Timer 1 Compare Match A
"TIMER1_COMPB", // 4: Timer 1 Compare Match B
"TIMER1_OVF", // 5: Timer 1 Overflow
"TIMER0_OVF", // 6: Timer 0 Overflow
"USI_START", // 7: USI Start Condition
"USI_OVF", // 8: USI Overflow
"EE_RDY", // 9: EEPROM Ready
"ANA_COMP", // 10: Analog Comparator
"ADC", // 11: ADC Conversion Complete
"WDT", // 12: Watchdog Time-out
"INT1", // 13: External Interrupt 1
"TIMER0_COMPA", // 14: Timer 0 Compare Match A
"TIMER0_COMPB", // 15: Timer 0 Compare Match B
"TIMER0_CAPT", // 16: Timer 0 Capture Event
"TIMER1_COMPD", // 17: Timer 1 Compare Match D
"FAULT_PROTECTION", // 18: Timer 1 Fault Protection
};
const char * const vtab_attiny1634[vts_attiny1634] = { // ATtiny1634
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"PCINT2", // 4: Pin Change Interrupt 2
"WDT", // 5: Watchdog Time-out
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMPA", // 10: Timer 0 Compare Match A
"TIMER0_COMPB", // 11: Timer 0 Compare Match B
"TIMER0_OVF", // 12: Timer 0 Overflow
"ANA_COMP", // 13: Analog Comparator
"ADC_READY", // 14: ADC Conversion Complete
"USART0_START", // 15: USART 0 Receive Start
"USART0_RXC", // 16: USART 0 Receive Complete
"USART0_UDRE", // 17: USART 0 Data Register Empty
"USART0_TXC", // 18: USART 0 Transmit Complete
"USART1_START", // 19: USART 1 Receive Start
"USART1_RXC", // 20: USART 1 Receive Complete
"USART1_UDRE", // 21: USART 1 Data Register Empty
"USART1_TXC", // 22: USART 1 Transmit Complete
"USI_START", // 23: USI Start Condition
"USI_OVERFLOW", // 24: USI Overflow
"TWI/TWI_SLAVE", // 25: 2-Wire Interface/2-Wire Interface Periphery
"EE_RDY", // 26: EEPROM Ready
"QTRIP", // 27: Touch Sensing
};
const char * const vtab_attiny2313[vts_attiny2313] = { // ATtiny2313
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER1_CAPT", // 3: Timer 1 Capture Event
"TIMER1_COMPA", // 4: Timer 1 Compare Match A
"TIMER1_OVF", // 5: Timer 1 Overflow
"TIMER0_OVF", // 6: Timer 0 Overflow
"USART_RX", // 7: USART Receive Complete
"USART_UDRE", // 8: USART Data Register Empty
"USART_TX", // 9: USART Transmit Complete
"ANA_COMP", // 10: Analog Comparator
"PCINT", // 11: Pin Change Interrupt
"TIMER1_COMPB", // 12: Timer 1 Compare Match B
"TIMER0_COMPA", // 13: Timer 0 Compare Match A
"TIMER0_COMPB", // 14: Timer 0 Compare Match B
"USI_START", // 15: USI Start Condition
"USI_OVERFLOW", // 16: USI Overflow
"EEPROM_Ready", // 17: EEPROM Ready
"WDT_OVERFLOW", // 18: Watchdog Timer Overflow
};
const char * const vtab_attiny4313[vts_attiny4313] = { // ATtiny4313, ATtiny2313A
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER1_CAPT", // 3: Timer 1 Capture Event
"TIMER1_COMPA", // 4: Timer 1 Compare Match A
"TIMER1_OVF", // 5: Timer 1 Overflow
"TIMER0_OVF", // 6: Timer 0 Overflow
"USART_RX", // 7: USART Receive Complete
"USART_UDRE", // 8: USART Data Register Empty
"USART_TX", // 9: USART Transmit Complete
"ANA_COMP", // 10: Analog Comparator
"PCINT_B", // 11: Pin Change Interrupt B
"TIMER1_COMPB", // 12: Timer 1 Compare Match B
"TIMER0_COMPA", // 13: Timer 0 Compare Match A
"TIMER0_COMPB", // 14: Timer 0 Compare Match B
"USI_START", // 15: USI Start Condition
"USI_OVERFLOW", // 16: USI Overflow
"EEPROM_Ready", // 17: EEPROM Ready
"WDT_OVERFLOW", // 18: Watchdog Timer Overflow
"PCINT_A", // 19: Pin Change Interrupt A
"PCINT_D", // 20: Pin Change Interrupt D
};
const char * const vtab_atmega8a[vts_atmega8a] = { // ATmega8A, ATmega8
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER2_COMP", // 3: Timer 2 Compare Match
"TIMER2_OVF", // 4: Timer 2 Overflow
"TIMER1_CAPT", // 5: Timer 1 Capture Event
"TIMER1_COMPA", // 6: Timer 1 Compare Match A
"TIMER1_COMPB", // 7: Timer 1 Compare Match B
"TIMER1_OVF", // 8: Timer 1 Overflow
"TIMER0_OVF", // 9: Timer 0 Overflow
"SPI_STC", // 10: SPI Serial Transfer Complete
"USART_RXC", // 11: USART Receive Complete
"USART_UDRE", // 12: USART Data Register Empty
"USART_TXC", // 13: USART Transmit Complete
"ADC", // 14: ADC Conversion Complete
"EE_RDY", // 15: EEPROM Ready
"ANA_COMP", // 16: Analog Comparator
"TWI", // 17: 2-Wire Interface
"SPM_RDY", // 18: Store Program Memory Ready
};
const char * const vtab_atmega16a[vts_atmega16a] = { // ATmega16A, ATmega16
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER2_COMP", // 3: Timer 2 Compare Match
"TIMER2_OVF", // 4: Timer 2 Overflow
"TIMER1_CAPT", // 5: Timer 1 Capture Event
"TIMER1_COMPA", // 6: Timer 1 Compare Match A
"TIMER1_COMPB", // 7: Timer 1 Compare Match B
"TIMER1_OVF", // 8: Timer 1 Overflow
"TIMER0_OVF", // 9: Timer 0 Overflow
"SPI_STC", // 10: SPI Serial Transfer Complete
"USART_RXC", // 11: USART Receive Complete
"USART_UDRE", // 12: USART Data Register Empty
"USART_TXC", // 13: USART Transmit Complete
"ADC", // 14: ADC Conversion Complete
"EE_RDY", // 15: EEPROM Ready
"ANA_COMP", // 16: Analog Comparator
"TWI", // 17: 2-Wire Interface
"INT2", // 18: External Interrupt 2
"TIMER0_COMP", // 19: Timer 0 Compare Match
"SPM_RDY", // 20: Store Program Memory Ready
};
const char * const vtab_atmega16hva[vts_atmega16hva] = { // ATmega16HVA, ATmega8HVA
"RESET", // 0: Reset (various reasons)
"BPINT", // 1: Battery Protection Interrupt
"VREGMON", // 2: Voltage Regulator Monitor
"INT0", // 3: External Interrupt 0
"INT1", // 4: External Interrupt 1
"INT2", // 5: External Interrupt 2
"WDT", // 6: Watchdog Time-out
"TIMER1_IC", // 7: Timer 1 Input Capture
"TIMER1_COMPA", // 8: Timer 1 Compare Match A
"TIMER1_COMPB", // 9: Timer 1 Compare Match B
"TIMER1_OVF", // 10: Timer 1 Overflow
"TIMER0_IC", // 11: Timer 0 Capture Event
"TIMER0_COMPA", // 12: Timer 0 Compare Match A
"TIMER0_COMPB", // 13: Timer 0 Compare Match B
"TIMER0_OVF", // 14: Timer 0 Overflow
"SPI_STC", // 15: SPI Serial Transfer Complete
"VADC", // 16: Voltage ADC Conversion Complete
"CCADC_CONV", // 17: Coulomb Counter ADC Conversion Complete
"CCADC_REG_CUR", // 18: Coloumb Counter ADC Regular Current
"CCADC_ACC", // 19: Coloumb Counter ADC Accumulator
"EE_READY", // 20: EEPROM Ready
};
const char * const vtab_atmega16hva2[vts_atmega16hva2] = { // ATmega16HVA2
"RESET", // 0: Reset (various reasons)
"BPINT", // 1: Battery Protection Interrupt
"VREGMON", // 2: Voltage Regulator Monitor
"INT0", // 3: External Interrupt 0
"INT1", // 4: External Interrupt 1
"INT2", // 5: External Interrupt 2
"PCINT0", // 6: Pin Change Interrupt 0
"WDT", // 7: Watchdog Time-out
"TIMER1_IC", // 8: Timer 1 Input Capture
"TIMER1_COMPA", // 9: Timer 1 Compare Match A
"TIMER1_COMPB", // 10: Timer 1 Compare Match B
"TIMER1_OVF", // 11: Timer 1 Overflow
"TIMER0_IC", // 12: Timer 0 Capture Event
"TIMER0_COMPA", // 13: Timer 0 Compare Match A
"TIMER0_COMPB", // 14: Timer 0 Compare Match B
"TIMER0_OVF", // 15: Timer 0 Overflow
"SPI_STC", // 16: SPI Serial Transfer Complete
"VADC", // 17: Voltage ADC Conversion Complete
"CCADC_CONV", // 18: Coulomb Counter ADC Conversion Complete
"CCADC_REG_CUR", // 19: Coloumb Counter ADC Regular Current
"CCADC_ACC", // 20: Coloumb Counter ADC Accumulator
"EE_READY", // 21: EEPROM Ready
};
const char * const vtab_atmega32hvbrevb[vts_atmega32hvbrevb] = { // ATmega32HVBrevB, ATmega32HVB, ATmega16HVBrevB, ATmega16HVB
"RESET", // 0: Reset (various reasons)
"BPINT", // 1: Battery Protection Interrupt
"VREGMON", // 2: Voltage Regulator Monitor
"INT0", // 3: External Interrupt 0
"INT1", // 4: External Interrupt 1
"INT2", // 5: External Interrupt 2
"INT3", // 6: External Interrupt 3
"PCINT0", // 7: Pin Change Interrupt 0
"PCINT1", // 8: Pin Change Interrupt 1
"WDT", // 9: Watchdog Time-out
"BGSCD", // 10: Bandgap Buffer Short Circuit Detected
"CHDET", // 11: Charger Detect
"TIMER1_IC", // 12: Timer 1 Input Capture
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_IC", // 16: Timer 0 Capture Event
"TIMER0_COMPA", // 17: Timer 0 Compare Match A
"TIMER0_COMPB", // 18: Timer 0 Compare Match B
"TIMER0_OVF", // 19: Timer 0 Overflow
"TWIBUSCD", // 20: 2-Wire Interface Bus Connect/Disconnect
"TWI", // 21: 2-Wire Interface
"SPI_STC", // 22: SPI Serial Transfer Complete
"VADC", // 23: Voltage ADC Conversion Complete
"CCADC_CONV", // 24: Coulomb Counter ADC Conversion Complete
"CCADC_REG_CUR", // 25: Coloumb Counter ADC Regular Current
"CCADC_ACC", // 26: Coloumb Counter ADC Accumulator
"EE_READY", // 27: EEPROM Ready
"SPM", // 28: SPM Ready
};
const char * const vtab_atmega32u2[vts_atmega32u2] = { // ATmega32U2, ATmega16U2, ATmega8U2, AT90USB162, AT90USB82
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"PCINT0", // 9: Pin Change Interrupt 0
"PCINT1", // 10: Pin Change Interrupt 1
"USB_GEN", // 11: USB General
"USB_COM", // 12: USB Endpoint/Pipe Interrupt Communication Request
"WDT", // 13: Watchdog Time-out
"TIMER1_CAPT", // 14: Timer 1 Capture Event
"TIMER1_COMPA", // 15: Timer 1 Compare Match A
"TIMER1_COMPB", // 16: Timer 1 Compare Match B
"TIMER1_COMPC", // 17: Timer 1 Compare Match C
"TIMER1_OVF", // 18: Timer 1 Overflow
"TIMER0_COMPA", // 19: Timer 0 Compare Match A
"TIMER0_COMPB", // 20: Timer 0 Compare Match B
"TIMER0_OVF", // 21: Timer 0 Overflow
"SPI_STC", // 22: SPI Serial Transfer Complete
"USART1_RX", // 23: USART 1 Receive Complete
"USART1_UDRE", // 24: USART 1 Data Register Empty
"USART1_TX", // 25: USART 1 Transmit Complete
"ANALOG_COMP", // 26: Analog Comparator
"EE_READY", // 27: EEPROM Ready
"SPM_READY", // 28: Store Program Memory Ready
};
const char * const vtab_atmega32u4[vts_atmega32u4] = { // ATmega32U4, ATmega16U4
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"Reserved1", // 5: Reserved 1
"Reserved2", // 6: Reserved 2
"INT6", // 7: External Interrupt 6
"Reserved3", // 8: Reserved 3
"PCINT0", // 9: Pin Change Interrupt 0
"USB_GEN", // 10: USB General
"USB_COM", // 11: USB Endpoint/Pipe Interrupt Communication Request
"WDT", // 12: Watchdog Time-out
"Reserved4", // 13: Reserved 4
"Reserved5", // 14: Reserved 5
"Reserved6", // 15: Reserved 6
"TIMER1_CAPT", // 16: Timer 1 Capture Event
"TIMER1_COMPA", // 17: Timer 1 Compare Match A
"TIMER1_COMPB", // 18: Timer 1 Compare Match B
"TIMER1_COMPC", // 19: Timer 1 Compare Match C
"TIMER1_OVF", // 20: Timer 1 Overflow
"TIMER0_COMPA", // 21: Timer 0 Compare Match A
"TIMER0_COMPB", // 22: Timer 0 Compare Match B
"TIMER0_OVF", // 23: Timer 0 Overflow
"SPI_STC", // 24: SPI Serial Transfer Complete
"USART1_RX", // 25: USART 1 Receive Complete
"USART1_UDRE", // 26: USART 1 Data Register Empty
"USART1_TX", // 27: USART 1 Transmit Complete
"ANALOG_COMP", // 28: Analog Comparator
"ADC", // 29: ADC Conversion Complete
"EE_READY", // 30: EEPROM Ready
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_COMPC", // 34: Timer 3 Compare Match C
"TIMER3_OVF", // 35: Timer 3 Overflow
"TWI", // 36: 2-Wire Interface
"SPM_READY", // 37: Store Program Memory Ready
"TIMER4_COMPA", // 38: Timer 4 Compare Match A
"TIMER4_COMPB", // 39: Timer 4 Compare Match B
"TIMER4_COMPD", // 40: Timer 4 Compare Match D
"TIMER4_OVF", // 41: Timer 4 Overflow
"TIMER4_FPF", // 42: Timer 4 Fault Protection
};
const char * const vtab_atmega32u6[vts_atmega32u6] = { // ATmega32U6, AT90USB1287, AT90USB1286, AT90USB647, AT90USB646
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"PCINT0", // 9: Pin Change Interrupt 0
"USB_GEN", // 10: USB General
"USB_COM", // 11: USB Endpoint/Pipe Interrupt Communication Request
"WDT", // 12: Watchdog Time-out
"TIMER2_COMPA", // 13: Timer 2 Compare Match A
"TIMER2_COMPB", // 14: Timer 2 Compare Match B
"TIMER2_OVF", // 15: Timer 2 Overflow
"TIMER1_CAPT", // 16: Timer 1 Capture Event
"TIMER1_COMPA", // 17: Timer 1 Compare Match A
"TIMER1_COMPB", // 18: Timer 1 Compare Match B
"TIMER1_COMPC", // 19: Timer 1 Compare Match C
"TIMER1_OVF", // 20: Timer 1 Overflow
"TIMER0_COMPA", // 21: Timer 0 Compare Match A
"TIMER0_COMPB", // 22: Timer 0 Compare Match B
"TIMER0_OVF", // 23: Timer 0 Overflow
"SPI_STC", // 24: SPI Serial Transfer Complete
"USART1_RX", // 25: USART 1 Receive Complete
"USART1_UDRE", // 26: USART 1 Data Register Empty
"USART1_TX", // 27: USART 1 Transmit Complete
"ANALOG_COMP", // 28: Analog Comparator
"ADC", // 29: ADC Conversion Complete
"EE_READY", // 30: EEPROM Ready
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_COMPC", // 34: Timer 3 Compare Match C
"TIMER3_OVF", // 35: Timer 3 Overflow
"TWI", // 36: 2-Wire Interface
"SPM_READY", // 37: Store Program Memory Ready
};
const char * const vtab_atmega64m1[vts_atmega64m1] = { // ATmega64M1, ATmega64C1, ATmega32M1, ATmega32C1, ATmega16M1
"RESET", // 0: Reset (various reasons)
"ANACOMP0", // 1: Analog Comparator 0
"ANACOMP1", // 2: Analog Comparator 1
"ANACOMP2", // 3: Analog Comparator 2
"ANACOMP3", // 4: Analog Comparator 3
"PSC_FAULT", // 5: PSC Fault
"PSC_EC", // 6: PSC End of Cycle
"INT0", // 7: External Interrupt 0
"INT1", // 8: External Interrupt 1
"INT2", // 9: External Interrupt 2
"INT3", // 10: External Interrupt 3
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"TIMER1_OVF", // 14: Timer 1 Overflow
"TIMER0_COMPA", // 15: Timer 0 Compare Match A
"TIMER0_COMPB", // 16: Timer 0 Compare Match B
"TIMER0_OVF", // 17: Timer 0 Overflow
"CAN_INT", // 18: CAN MOB, Burst, General Errors
"CAN_TOVF", // 19: CAN Timer Overflow
"LIN_TC", // 20: LIN Transfer Complete
"LIN_ERR", // 21: LIN Error
"PCINT0", // 22: Pin Change Interrupt 0
"PCINT1", // 23: Pin Change Interrupt 1
"PCINT2", // 24: Pin Change Interrupt 2
"PCINT3", // 25: Pin Change Interrupt 3
"SPI_STC", // 26: SPI Serial Transfer Complete
"ADC", // 27: ADC Conversion Complete
"WDT", // 28: Watchdog Time-out
"EE_READY", // 29: EEPROM Ready
"SPM_READY", // 30: Store Program Memory Ready
};
const char * const vtab_atmega64hve2[vts_atmega64hve2] = { // ATmega64HVE2, ATmega64HVE
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"WDT", // 4: Watchdog Time-out
"WAKEUP", // 5: Wake Up
"TIMER1_IC", // 6: Timer 1 Input Capture
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_IC", // 10: Timer 0 Capture Event
"TIMER0_COMPA", // 11: Timer 0 Compare Match A
"TIMER0_COMPB", // 12: Timer 0 Compare Match B
"TIMER0_OVF", // 13: Timer 0 Overflow
"LIN_STATUS", // 14: Local Interconnect Network Status
"LIN_ERROR", // 15: Local Interconnect Network Error
"SPI_STC", // 16: SPI Serial Transfer Complete
"VADC_CONV", // 17: Versatile Analog to Digital Conversion
"VADC_ACC", // 18: Versatile Analog to Digital Compare or Capture
"CADC_CONV", // 19: C-ADC Instantaneous Conversion Complete
"CADC_REG_CUR", // 20: C-ADC Regular Current
"CADC_ACC", // 21: C-ADC Accumulated Conversion Complete
"EE_READY", // 22: EEPROM Ready
"SPM", // 23: SPM Ready
"PLL", // 24: PLL
};
const char * const vtab_atmega103[vts_atmega103] = { // ATmega103
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"TIMER2_COMP", // 9: Timer 2 Compare Match
"TIMER2_OVF", // 10: Timer 2 Overflow
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"TIMER1_OVF", // 14: Timer 1 Overflow
"TIMER0_COMP", // 15: Timer 0 Compare Match
"TIMER0_OVF", // 16: Timer 0 Overflow
"SPI_STC", // 17: SPI Serial Transfer Complete
"UART_RX", // 18: UART Receive Complete
"UART_UDRE", // 19: UART Data Register Empty
"UART_TX", // 20: UART Transmit Complete
"ADC", // 21: ADC Conversion Complete
"EE_READY", // 22: EEPROM Ready
"ANALOG_COMP", // 23: Analog Comparator
};
const char * const vtab_atmega128a[vts_atmega128a] = { // ATmega128A, ATmega128, ATmega64A, ATmega64
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"TIMER2_COMP", // 9: Timer 2 Compare Match
"TIMER2_OVF", // 10: Timer 2 Overflow
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"TIMER1_OVF", // 14: Timer 1 Overflow
"TIMER0_COMP", // 15: Timer 0 Compare Match
"TIMER0_OVF", // 16: Timer 0 Overflow
"SPI_STC", // 17: SPI Serial Transfer Complete
"USART0_RX", // 18: USART 0 Receive Complete
"USART0_UDRE", // 19: USART 0 Data Register Empty
"USART0_TX", // 20: USART 0 Transmit Complete
"ADC", // 21: ADC Conversion Complete
"EE_READY", // 22: EEPROM Ready
"ANALOG_COMP", // 23: Analog Comparator
"TIMER1_COMPC", // 24: Timer 1 Compare Match C
"TIMER3_CAPT", // 25: Timer 3 Capture Event
"TIMER3_COMPA", // 26: Timer 3 Compare Match A
"TIMER3_COMPB", // 27: Timer 3 Compare Match B
"TIMER3_COMPC", // 28: Timer 3 Compare Match C
"TIMER3_OVF", // 29: Timer 3 Overflow
"USART1_RX", // 30: USART 1 Receive Complete
"USART1_UDRE", // 31: USART 1 Data Register Empty
"USART1_TX", // 32: USART 1 Transmit Complete
"TWI", // 33: 2-Wire Interface
"SPM_READY", // 34: Store Program Memory Ready
};
const char * const vtab_atmega128rfa1[vts_atmega128rfa1] = { // ATmega128RFA1
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"PCINT0", // 9: Pin Change Interrupt 0
"PCINT1", // 10: Pin Change Interrupt 1
"PCINT2", // 11: Pin Change Interrupt 2
"WDT", // 12: Watchdog Time-out
"TIMER2_COMPA", // 13: Timer 2 Compare Match A
"TIMER2_COMPB", // 14: Timer 2 Compare Match B
"TIMER2_OVF", // 15: Timer 2 Overflow
"TIMER1_CAPT", // 16: Timer 1 Capture Event
"TIMER1_COMPA", // 17: Timer 1 Compare Match A
"TIMER1_COMPB", // 18: Timer 1 Compare Match B
"TIMER1_COMPC", // 19: Timer 1 Compare Match C
"TIMER1_OVF", // 20: Timer 1 Overflow
"TIMER0_COMPA", // 21: Timer 0 Compare Match A
"TIMER0_COMPB", // 22: Timer 0 Compare Match B
"TIMER0_OVF", // 23: Timer 0 Overflow
"SPI_STC", // 24: SPI Serial Transfer Complete
"USART0_RX", // 25: USART 0 Receive Complete
"USART0_UDRE", // 26: USART 0 Data Register Empty
"USART0_TX", // 27: USART 0 Transmit Complete
"ANALOG_COMP", // 28: Analog Comparator
"ADC", // 29: ADC Conversion Complete
"EE_READY", // 30: EEPROM Ready
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_COMPC", // 34: Timer 3 Compare Match C
"TIMER3_OVF", // 35: Timer 3 Overflow
"USART1_RX", // 36: USART 1 Receive Complete
"USART1_UDRE", // 37: USART 1 Data Register Empty
"USART1_TX", // 38: USART 1 Transmit Complete
"TWI", // 39: 2-Wire Interface
"SPM_READY", // 40: Store Program Memory Ready
"TIMER4_CAPT", // 41: Timer 4 Capture Event
"TIMER4_COMPA", // 42: Timer 4 Compare Match A
"TIMER4_COMPB", // 43: Timer 4 Compare Match B
"TIMER4_COMPC", // 44: Timer 4 Compare Match C
"TIMER4_OVF", // 45: Timer 4 Overflow
"TIMER5_CAPT", // 46: Timer 5 Capture Event
"TIMER5_COMPA", // 47: Timer 5 Compare Match A
"TIMER5_COMPB", // 48: Timer 5 Compare Match B
"TIMER5_COMPC", // 49: Timer 5 Compare Match C
"TIMER5_OVF", // 50: Timer 5 Overflow
"USART2_RX", // 51: USART 2 Receive Complete
"USART2_UDRE", // 52: USART 2 Data Register Empty
"USART2_TX", // 53: USART 2 Transmit Complete
"USART3_RX", // 54: USART 3 Receive Complete
"USART3_UDRE", // 55: USART 3 Data Register Empty
"USART3_TX", // 56: USART 3 Transmit Complete
"TRX24_PLL_LOCK", // 57: TRX24 PLL Lock
"TRX24_PLL_UNLOCK", // 58: TRX24 PLL Unlock
"TRX24_RX_START", // 59: TRX24 Receive Start
"TRX24_RX_END", // 60: TRX24 Receive End
"TRX24_CCA_ED_DONE", // 61: TRX24 CCA/ED Done
"TRX24_XAH_AMI", // 62: TRX24 XAH/AMI
"TRX24_TX_END", // 63: TRX24 Transmit End
"TRX24_AWAKE", // 64: TRX24 AWAKE - Transceiver is Reaching State TRX_OFF
"SCNT_CMP1", // 65: Symbol Counter - Compare Match 1 Interrupt
"SCNT_CMP2", // 66: Symbol Counter - Compare Match 2 Interrupt
"SCNT_CMP3", // 67: Symbol Counter - Compare Match 3 Interrupt
"SCNT_OVFL", // 68: Symbol Counter - Overflow Interrupt
"SCNT_BACKOFF", // 69: Symbol Counter - Backoff Interrupt
"AES_READY", // 70: AES Engine Ready
"BAT_LOW", // 71: Battery Voltage Below Threshold
};
const char * const vtab_atmega161[vts_atmega161] = { // ATmega161
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"TIMER2_COMP", // 4: Timer 2 Compare Match
"TIMER2_OVF", // 5: Timer 2 Overflow
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMP", // 10: Timer 0 Compare Match
"TIMER0_OVF", // 11: Timer 0 Overflow
"SPI_STC", // 12: SPI Serial Transfer Complete
"UART0_RX", // 13: UART 0 Receive Complete
"UART1_RX", // 14: UART 1 Receive Complete
"UART0_UDRE", // 15: UART 0 Data Register Empty
"UART1_UDRE", // 16: UART 1 Data Register Empty
"UART0_TX", // 17: UART 0 Transmit Complete
"UART1_TX", // 18: UART 1 Transmit Complete
"EE_RDY", // 19: EEPROM Ready
"ANA_COMP", // 20: Analog Comparator
};
const char * const vtab_atmega162[vts_atmega162] = { // ATmega162
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"PCINT0", // 4: Pin Change Interrupt 0
"PCINT1", // 5: Pin Change Interrupt 1
"TIMER3_CAPT", // 6: Timer 3 Capture Event
"TIMER3_COMPA", // 7: Timer 3 Compare Match A
"TIMER3_COMPB", // 8: Timer 3 Compare Match B
"TIMER3_OVF", // 9: Timer 3 Overflow
"TIMER2_COMP", // 10: Timer 2 Compare Match
"TIMER2_OVF", // 11: Timer 2 Overflow
"TIMER1_CAPT", // 12: Timer 1 Capture Event
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMP", // 16: Timer 0 Compare Match
"TIMER0_OVF", // 17: Timer 0 Overflow
"SPI_STC", // 18: SPI Serial Transfer Complete
"USART0_RXC", // 19: USART 0 Receive Complete
"USART1_RXC", // 20: USART 1 Receive Complete
"USART0_UDRE", // 21: USART 0 Data Register Empty
"USART1_UDRE", // 22: USART 1 Data Register Empty
"USART0_TXC", // 23: USART 0 Transmit Complete
"USART1_TXC", // 24: USART 1 Transmit Complete
"EE_RDY", // 25: EEPROM Ready
"ANA_COMP", // 26: Analog Comparator
"SPM_RDY", // 27: Store Program Memory Ready
};
const char * const vtab_atmega163[vts_atmega163] = { // ATmega163
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER2_COMP", // 3: Timer 2 Compare Match
"TIMER2_OVF", // 4: Timer 2 Overflow
"TIMER1_CAPT", // 5: Timer 1 Capture Event
"TIMER1_COMPA", // 6: Timer 1 Compare Match A
"TIMER1_COMPB", // 7: Timer 1 Compare Match B
"TIMER1_OVF", // 8: Timer 1 Overflow
"TIMER0_OVF", // 9: Timer 0 Overflow
"SPI_STC", // 10: SPI Serial Transfer Complete
"UART_RX", // 11: UART Receive Complete
"UART_UDRE", // 12: UART Data Register Empty
"UART_TX", // 13: UART Transmit Complete
"ADC", // 14: ADC Conversion Complete
"EE_RDY", // 15: EEPROM Ready
"ANA_COMP", // 16: Analog Comparator
"TWI", // 17: 2-Wire Interface
};
const char * const vtab_atmega168pb[vts_atmega168pb] = { // ATmega168PB, ATmega88PB, ATmega48PB
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"WDT", // 6: Watchdog Time-out
"TIMER2_COMPA", // 7: Timer 2 Compare Match A
"TIMER2_COMPB", // 8: Timer 2 Compare Match B
"TIMER2_OVF", // 9: Timer 2 Overflow
"TIMER1_CAPT", // 10: Timer 1 Capture Event
"TIMER1_COMPA", // 11: Timer 1 Compare Match A
"TIMER1_COMPB", // 12: Timer 1 Compare Match B
"TIMER1_OVF", // 13: Timer 1 Overflow
"TIMER0_COMPA", // 14: Timer 0 Compare Match A
"TIMER0_COMPB", // 15: Timer 0 Compare Match B
"TIMER0_OVF", // 16: Timer 0 Overflow
"SPI_STC", // 17: SPI Serial Transfer Complete
"USART_RX", // 18: USART Receive Complete
"USART_UDRE", // 19: USART Data Register Empty
"USART_TX", // 20: USART Transmit Complete
"ADC", // 21: ADC Conversion Complete
"EE_READY", // 22: EEPROM Ready
"ANALOG_COMP", // 23: Analog Comparator
"TWI", // 24: 2-Wire Interface
"SPM_Ready", // 25: Store Program Memory Ready
"USART_START", // 26: USART Start
};
const char * const vtab_atmega323[vts_atmega323] = { // ATmega323, ATmega32A, ATmega32
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"TIMER2_COMP", // 4: Timer 2 Compare Match
"TIMER2_OVF", // 5: Timer 2 Overflow
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMP", // 10: Timer 0 Compare Match
"TIMER0_OVF", // 11: Timer 0 Overflow
"SPI_STC", // 12: SPI Serial Transfer Complete
"USART_RXC", // 13: USART Receive Complete
"USART_UDRE", // 14: USART Data Register Empty
"USART_TXC", // 15: USART Transmit Complete
"ADC", // 16: ADC Conversion Complete
"EE_RDY", // 17: EEPROM Ready
"ANA_COMP", // 18: Analog Comparator
"TWI", // 19: 2-Wire Interface
"SPM_RDY", // 20: Store Program Memory Ready
};
const char * const vtab_atmega324pb[vts_atmega324pb] = { // ATmega324PB
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"PCINT0", // 4: Pin Change Interrupt 0
"PCINT1", // 5: Pin Change Interrupt 1
"PCINT2", // 6: Pin Change Interrupt 2
"PCINT3", // 7: Pin Change Interrupt 3
"WDT", // 8: Watchdog Time-out
"TIMER2_COMPA", // 9: Timer 2 Compare Match A
"TIMER2_COMPB", // 10: Timer 2 Compare Match B
"TIMER2_OVF", // 11: Timer 2 Overflow
"TIMER1_CAPT", // 12: Timer 1 Capture Event
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMPA", // 16: Timer 0 Compare Match A
"TIMER0_COMPB", // 17: Timer 0 Compare Match B
"TIMER0_OVF", // 18: Timer 0 Overflow
"SPI0_STC", // 19: SPI 0 Serial Transfer Complete
"USART0_RX", // 20: USART 0 Receive Complete
"USART0_UDRE", // 21: USART 0 Data Register Empty
"USART0_TX", // 22: USART 0 Transmit Complete
"ANALOG_COMP", // 23: Analog Comparator
"ADC", // 24: ADC Conversion Complete
"EE_READY", // 25: EEPROM Ready
"TWI0", // 26: 2-Wire Interface 0
"SPM_READY", // 27: Store Program Memory Ready
"USART1_RX", // 28: USART 1 Receive Complete
"USART1_UDRE", // 29: USART 1 Data Register Empty
"USART1_TX", // 30: USART 1 Transmit Complete
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_OVF", // 34: Timer 3 Overflow
"USART0_START", // 35: USART 0 Receive Start
"USART1_START", // 36: USART 1 Receive Start
"PCINT4", // 37: Pin Change Interrupt 4
"XOSCFD", // 38: Crystal Failure Detect
"PTC_EOC", // 39: PTC End of Conversion
"PTC_WCOMP", // 40: PTC Window Comparator Mode
"SPI1_STC", // 41: SPI 1 Serial Transfer Complete
"TWI1", // 42: 2-Wire Interface 1
"TIMER4_CAPT", // 43: Timer 4 Capture Event
"TIMER4_COMPA", // 44: Timer 4 Compare Match A
"TIMER4_COMPB", // 45: Timer 4 Compare Match B
"TIMER4_OVF", // 46: Timer 4 Overflow
"USART2_RX", // 47: USART 2 Receive Complete
"USART2_UDRE", // 48: USART 2 Data Register Empty
"USART2_TX", // 49: USART 2 Transmit Complete
"USART2_START", // 50: USART 2 Receive Start
};
const char * const vtab_atmega328[vts_atmega328] = { // ATmega328, ATmega168
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"WDT", // 6: Watchdog Time-out
"TIMER2_COMPA", // 7: Timer 2 Compare Match A
"TIMER2_COMPB", // 8: Timer 2 Compare Match B
"TIMER2_OVF", // 9: Timer 2 Overflow
"TIMER1_CAPT", // 10: Timer 1 Capture Event
"TIMER1_COMPA", // 11: Timer 1 Compare Match A
"TIMER1_COMPB", // 12: Timer 1 Compare Match B
"TIMER1_OVF", // 13: Timer 1 Overflow
"TIMER0_COMPA", // 14: Timer 0 Compare Match A
"TIMER0_COMPB", // 15: Timer 0 Compare Match B
"TIMER0_OVF", // 16: Timer 0 Overflow
"SPI_STC", // 17: SPI Serial Transfer Complete
"USART_RX", // 18: USART Receive Complete
"USART_UDRE", // 19: USART Data Register Empty
"USART_TX", // 20: USART Transmit Complete
"ADC", // 21: ADC Conversion Complete
"EE_READY", // 22: EEPROM Ready
"ANALOG_COMP", // 23: Analog Comparator
"TWI", // 24: 2-Wire Interface
"SPM_READY", // 25: Store Program Memory Ready
};
const char * const vtab_atmega328p[vts_atmega328p] = { // ATmega328P, ATmega168PA, ATmega168P, ATmega168A, ATmega88PA, ATmega88P, ATmega88A, ATmega88, ATmega48PA, ATmega48P, ATmega48A, ATmega48, ATA6614Q, ATA6613C, ATA6612C
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"WDT", // 6: Watchdog Time-out
"TIMER2_COMPA", // 7: Timer 2 Compare Match A
"TIMER2_COMPB", // 8: Timer 2 Compare Match B
"TIMER2_OVF", // 9: Timer 2 Overflow
"TIMER1_CAPT", // 10: Timer 1 Capture Event
"TIMER1_COMPA", // 11: Timer 1 Compare Match A
"TIMER1_COMPB", // 12: Timer 1 Compare Match B
"TIMER1_OVF", // 13: Timer 1 Overflow
"TIMER0_COMPA", // 14: Timer 0 Compare Match A
"TIMER0_COMPB", // 15: Timer 0 Compare Match B
"TIMER0_OVF", // 16: Timer 0 Overflow
"SPI_STC", // 17: SPI Serial Transfer Complete
"USART_RX", // 18: USART Receive Complete
"USART_UDRE", // 19: USART Data Register Empty
"USART_TX", // 20: USART Transmit Complete
"ADC", // 21: ADC Conversion Complete
"EE_READY", // 22: EEPROM Ready
"ANALOG_COMP", // 23: Analog Comparator
"TWI", // 24: 2-Wire Interface
"SPM_Ready", // 25: Store Program Memory Ready
};
const char * const vtab_atmega328pb[vts_atmega328pb] = { // ATmega328PB
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"WDT", // 6: Watchdog Time-out
"TIMER2_COMPA", // 7: Timer 2 Compare Match A
"TIMER2_COMPB", // 8: Timer 2 Compare Match B
"TIMER2_OVF", // 9: Timer 2 Overflow
"TIMER1_CAPT", // 10: Timer 1 Capture Event
"TIMER1_COMPA", // 11: Timer 1 Compare Match A
"TIMER1_COMPB", // 12: Timer 1 Compare Match B
"TIMER1_OVF", // 13: Timer 1 Overflow
"TIMER0_COMPA", // 14: Timer 0 Compare Match A
"TIMER0_COMPB", // 15: Timer 0 Compare Match B
"TIMER0_OVF", // 16: Timer 0 Overflow
"SPI0_STC", // 17: SPI 0 Serial Transfer Complete
"USART0_RX", // 18: USART 0 Receive Complete
"USART0_UDRE", // 19: USART 0 Data Register Empty
"USART0_TX", // 20: USART 0 Transmit Complete
"ADC", // 21: ADC Conversion Complete
"EE_READY", // 22: EEPROM Ready
"ANALOG_COMP", // 23: Analog Comparator
"TWI0", // 24: 2-Wire Interface 0
"SPM_Ready", // 25: Store Program Memory Ready
"USART0_START", // 26: USART 0 Receive Start
"PCINT3", // 27: Pin Change Interrupt 3
"USART1_RX", // 28: USART 1 Receive Complete
"USART1_UDRE", // 29: USART 1 Data Register Empty
"USART1_TX", // 30: USART 1 Transmit Complete
"USART1_START", // 31: USART 1 Receive Start
"TIMER3_CAPT", // 32: Timer 3 Capture Event
"TIMER3_COMPA", // 33: Timer 3 Compare Match A
"TIMER3_COMPB", // 34: Timer 3 Compare Match B
"TIMER3_OVF", // 35: Timer 3 Overflow
"CFD", // 36: Clock Failure Detection
"PTC_EOC", // 37: PTC End of Conversion
"PTC_WCOMP", // 38: PTC Window Comparator Mode
"SPI1_STC", // 39: SPI 1 Serial Transfer Complete
"TWI1", // 40: 2-Wire Interface 1
"TIMER4_CAPT", // 41: Timer 4 Capture Event
"TIMER4_COMPA", // 42: Timer 4 Compare Match A
"TIMER4_COMPB", // 43: Timer 4 Compare Match B
"TIMER4_OVF", // 44: Timer 4 Overflow
};
const char * const vtab_atmega406[vts_atmega406] = { // ATmega406
"RESET", // 0: Reset (various reasons)
"BPINT", // 1: Battery Protection Interrupt
"INT0", // 2: External Interrupt 0
"INT1", // 3: External Interrupt 1
"INT2", // 4: External Interrupt 2
"INT3", // 5: External Interrupt 3
"PCINT0", // 6: Pin Change Interrupt 0
"PCINT1", // 7: Pin Change Interrupt 1
"WDT", // 8: Watchdog Time-out
"WAKE_UP", // 9: Wake Up
"TIM1_COMP", // 10: Timer 1 Compare and Match
"TIM1_OVF", // 11: Timer 1 Overflow
"TIM0_COMPA", // 12: Timer 0 Compare Match A
"TIM0_COMPB", // 13: Timer 0 Compare Match B
"TIM0_OVF", // 14: Timer 0 Overflow
"TWI_BUS_CD", // 15: 2-Wire Interface Bus Connect/Disconnect
"TWI", // 16: 2-Wire Interface
"VADC", // 17: Voltage ADC Conversion Complete
"CCADC_CONV", // 18: Coulomb Counter ADC Conversion Complete
"CCADC_REG_CUR", // 19: Coloumb Counter ADC Regular Current
"CCADC_ACC", // 20: Coloumb Counter ADC Accumulator
"EE_READY", // 21: EEPROM Ready
"SPM_READY", // 22: Store Program Memory Ready
};
const char * const vtab_atmega644[vts_atmega644] = { // ATmega644
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"PCINT0", // 4: Pin Change Interrupt 0
"PCINT1", // 5: Pin Change Interrupt 1
"PCINT2", // 6: Pin Change Interrupt 2
"PCINT3", // 7: Pin Change Interrupt 3
"WDT", // 8: Watchdog Time-out
"TIMER2_COMPA", // 9: Timer 2 Compare Match A
"TIMER2_COMPB", // 10: Timer 2 Compare Match B
"TIMER2_OVF", // 11: Timer 2 Overflow
"TIMER1_CAPT", // 12: Timer 1 Capture Event
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMPA", // 16: Timer 0 Compare Match A
"TIMER0_COMPB", // 17: Timer 0 Compare Match B
"TIMER0_OVF", // 18: Timer 0 Overflow
"SPI_STC", // 19: SPI Serial Transfer Complete
"USART0_RX", // 20: USART 0 Receive Complete
"USART0_UDRE", // 21: USART 0 Data Register Empty
"USART0_TX", // 22: USART 0 Transmit Complete
"ANALOG_COMP", // 23: Analog Comparator
"ADC", // 24: ADC Conversion Complete
"EE_READY", // 25: EEPROM Ready
"TWI", // 26: 2-Wire Interface
"SPM_READY", // 27: Store Program Memory Ready
};
const char * const vtab_atmega644pa[vts_atmega644pa] = { // ATmega644PA, ATmega644P, ATmega644A, ATmega324PA, ATmega324P, ATmega324A, ATmega164PA, ATmega164P, ATmega164A
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"PCINT0", // 4: Pin Change Interrupt 0
"PCINT1", // 5: Pin Change Interrupt 1
"PCINT2", // 6: Pin Change Interrupt 2
"PCINT3", // 7: Pin Change Interrupt 3
"WDT", // 8: Watchdog Time-out
"TIMER2_COMPA", // 9: Timer 2 Compare Match A
"TIMER2_COMPB", // 10: Timer 2 Compare Match B
"TIMER2_OVF", // 11: Timer 2 Overflow
"TIMER1_CAPT", // 12: Timer 1 Capture Event
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMPA", // 16: Timer 0 Compare Match A
"TIMER0_COMPB", // 17: Timer 0 Compare Match B
"TIMER0_OVF", // 18: Timer 0 Overflow
"SPI_STC", // 19: SPI Serial Transfer Complete
"USART0_RX", // 20: USART 0 Receive Complete
"USART0_UDRE", // 21: USART 0 Data Register Empty
"USART0_TX", // 22: USART 0 Transmit Complete
"ANALOG_COMP", // 23: Analog Comparator
"ADC", // 24: ADC Conversion Complete
"EE_READY", // 25: EEPROM Ready
"TWI", // 26: 2-Wire Interface
"SPM_READY", // 27: Store Program Memory Ready
"USART1_RX", // 28: USART 1 Receive Complete
"USART1_UDRE", // 29: USART 1 Data Register Empty
"USART1_TX", // 30: USART 1 Transmit Complete
};
const char * const vtab_atmega645p[vts_atmega645p] = { // ATmega645P, ATmega645A, ATmega645, ATmega325PA, ATmega325P, ATmega325A, ATmega325, ATmega165PA, ATmega165P, ATmega165A, ATmega165
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"TIMER2_COMP", // 4: Timer 2 Compare Match
"TIMER2_OVF", // 5: Timer 2 Overflow
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMP", // 10: Timer 0 Compare Match
"TIMER0_OVF", // 11: Timer 0 Overflow
"SPI_STC", // 12: SPI Serial Transfer Complete
"USART0_RX", // 13: USART 0 Receive Complete
"USART0_UDRE", // 14: USART 0 Data Register Empty
"USART0_TX", // 15: USART 0 Transmit Complete
"USI_START", // 16: USI Start Condition
"USI_OVERFLOW", // 17: USI Overflow
"ANALOG_COMP", // 18: Analog Comparator
"ADC", // 19: ADC Conversion Complete
"EE_READY", // 20: EEPROM Ready
"SPM_READY", // 21: Store Program Memory Ready
};
const char * const vtab_atmega649p[vts_atmega649p] = { // ATmega649P, ATmega649A, ATmega649, ATmega329PA, ATmega329P, ATmega329A, ATmega329, ATmega169PA, ATmega169P, ATmega169A, ATmega169
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"TIMER2_COMP", // 4: Timer 2 Compare Match
"TIMER2_OVF", // 5: Timer 2 Overflow
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMP", // 10: Timer 0 Compare Match
"TIMER0_OVF", // 11: Timer 0 Overflow
"SPI_STC", // 12: SPI Serial Transfer Complete
"USART0_RX", // 13: USART 0 Receive Complete
"USART0_UDRE", // 14: USART 0 Data Register Empty
"USART0_TX", // 15: USART 0 Transmit Complete
"USI_START", // 16: USI Start Condition
"USI_OVERFLOW", // 17: USI Overflow
"ANALOG_COMP", // 18: Analog Comparator
"ADC", // 19: ADC Conversion Complete
"EE_READY", // 20: EEPROM Ready
"SPM_READY", // 21: Store Program Memory Ready
"LCD", // 22: LCD Start of Frame
};
const char * const vtab_atmega1284p[vts_atmega1284p] = { // ATmega1284P, ATmega1284
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"PCINT0", // 4: Pin Change Interrupt 0
"PCINT1", // 5: Pin Change Interrupt 1
"PCINT2", // 6: Pin Change Interrupt 2
"PCINT3", // 7: Pin Change Interrupt 3
"WDT", // 8: Watchdog Time-out
"TIMER2_COMPA", // 9: Timer 2 Compare Match A
"TIMER2_COMPB", // 10: Timer 2 Compare Match B
"TIMER2_OVF", // 11: Timer 2 Overflow
"TIMER1_CAPT", // 12: Timer 1 Capture Event
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMPA", // 16: Timer 0 Compare Match A
"TIMER0_COMPB", // 17: Timer 0 Compare Match B
"TIMER0_OVF", // 18: Timer 0 Overflow
"SPI_STC", // 19: SPI Serial Transfer Complete
"USART0_RX", // 20: USART 0 Receive Complete
"USART0_UDRE", // 21: USART 0 Data Register Empty
"USART0_TX", // 22: USART 0 Transmit Complete
"ANALOG_COMP", // 23: Analog Comparator
"ADC", // 24: ADC Conversion Complete
"EE_READY", // 25: EEPROM Ready
"TWI", // 26: 2-Wire Interface
"SPM_READY", // 27: Store Program Memory Ready
"USART1_RX", // 28: USART 1 Receive Complete
"USART1_UDRE", // 29: USART 1 Data Register Empty
"USART1_TX", // 30: USART 1 Transmit Complete
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_OVF", // 34: Timer 3 Overflow
};
const char * const vtab_atmega2561[vts_atmega2561] = { // ATmega2561, ATmega2560, ATmega1281, ATmega1280, ATmega640
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"PCINT0", // 9: Pin Change Interrupt 0
"PCINT1", // 10: Pin Change Interrupt 1
"PCINT2", // 11: Pin Change Interrupt 2
"WDT", // 12: Watchdog Time-out
"TIMER2_COMPA", // 13: Timer 2 Compare Match A
"TIMER2_COMPB", // 14: Timer 2 Compare Match B
"TIMER2_OVF", // 15: Timer 2 Overflow
"TIMER1_CAPT", // 16: Timer 1 Capture Event
"TIMER1_COMPA", // 17: Timer 1 Compare Match A
"TIMER1_COMPB", // 18: Timer 1 Compare Match B
"TIMER1_COMPC", // 19: Timer 1 Compare Match C
"TIMER1_OVF", // 20: Timer 1 Overflow
"TIMER0_COMPA", // 21: Timer 0 Compare Match A
"TIMER0_COMPB", // 22: Timer 0 Compare Match B
"TIMER0_OVF", // 23: Timer 0 Overflow
"SPI_STC", // 24: SPI Serial Transfer Complete
"USART0_RX", // 25: USART 0 Receive Complete
"USART0_UDRE", // 26: USART 0 Data Register Empty
"USART0_TX", // 27: USART 0 Transmit Complete
"ANALOG_COMP", // 28: Analog Comparator
"ADC", // 29: ADC Conversion Complete
"EE_READY", // 30: EEPROM Ready
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_COMPC", // 34: Timer 3 Compare Match C
"TIMER3_OVF", // 35: Timer 3 Overflow
"USART1_RX", // 36: USART 1 Receive Complete
"USART1_UDRE", // 37: USART 1 Data Register Empty
"USART1_TX", // 38: USART 1 Transmit Complete
"TWI", // 39: 2-Wire Interface
"SPM_READY", // 40: Store Program Memory Ready
"TIMER4_CAPT", // 41: Timer 4 Capture Event
"TIMER4_COMPA", // 42: Timer 4 Compare Match A
"TIMER4_COMPB", // 43: Timer 4 Compare Match B
"TIMER4_COMPC", // 44: Timer 4 Compare Match C
"TIMER4_OVF", // 45: Timer 4 Overflow
"TIMER5_CAPT", // 46: Timer 5 Capture Event
"TIMER5_COMPA", // 47: Timer 5 Compare Match A
"TIMER5_COMPB", // 48: Timer 5 Compare Match B
"TIMER5_COMPC", // 49: Timer 5 Compare Match C
"TIMER5_OVF", // 50: Timer 5 Overflow
"USART2_RX", // 51: USART 2 Receive Complete
"USART2_UDRE", // 52: USART 2 Data Register Empty
"USART2_TX", // 53: USART 2 Transmit Complete
"USART3_RX", // 54: USART 3 Receive Complete
"USART3_UDRE", // 55: USART 3 Data Register Empty
"USART3_TX", // 56: USART 3 Transmit Complete
};
const char * const vtab_atmega2564rfr2[vts_atmega2564rfr2] = { // ATmega2564RFR2, ATmega1284RFR2, ATmega644RFR2, ATmega256RFR2, ATmega128RFR2, ATmega64RFR2
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"PCINT0", // 9: Pin Change Interrupt 0
"PCINT1", // 10: Pin Change Interrupt 1
"PCINT2", // 11: Pin Change Interrupt 2
"WDT", // 12: Watchdog Time-out
"TIMER2_COMPA", // 13: Timer 2 Compare Match A
"TIMER2_COMPB", // 14: Timer 2 Compare Match B
"TIMER2_OVF", // 15: Timer 2 Overflow
"TIMER1_CAPT", // 16: Timer 1 Capture Event
"TIMER1_COMPA", // 17: Timer 1 Compare Match A
"TIMER1_COMPB", // 18: Timer 1 Compare Match B
"TIMER1_COMPC", // 19: Timer 1 Compare Match C
"TIMER1_OVF", // 20: Timer 1 Overflow
"TIMER0_COMPA", // 21: Timer 0 Compare Match A
"TIMER0_COMPB", // 22: Timer 0 Compare Match B
"TIMER0_OVF", // 23: Timer 0 Overflow
"SPI_STC", // 24: SPI Serial Transfer Complete
"USART0_RX", // 25: USART 0 Receive Complete
"USART0_UDRE", // 26: USART 0 Data Register Empty
"USART0_TX", // 27: USART 0 Transmit Complete
"ANALOG_COMP", // 28: Analog Comparator
"ADC", // 29: ADC Conversion Complete
"EE_READY", // 30: EEPROM Ready
"TIMER3_CAPT", // 31: Timer 3 Capture Event
"TIMER3_COMPA", // 32: Timer 3 Compare Match A
"TIMER3_COMPB", // 33: Timer 3 Compare Match B
"TIMER3_COMPC", // 34: Timer 3 Compare Match C
"TIMER3_OVF", // 35: Timer 3 Overflow
"USART1_RX", // 36: USART 1 Receive Complete
"USART1_UDRE", // 37: USART 1 Data Register Empty
"USART1_TX", // 38: USART 1 Transmit Complete
"TWI", // 39: 2-Wire Interface
"SPM_READY", // 40: Store Program Memory Ready
"TIMER4_CAPT", // 41: Timer 4 Capture Event
"TIMER4_COMPA", // 42: Timer 4 Compare Match A
"TIMER4_COMPB", // 43: Timer 4 Compare Match B
"TIMER4_COMPC", // 44: Timer 4 Compare Match C
"TIMER4_OVF", // 45: Timer 4 Overflow
"TIMER5_CAPT", // 46: Timer 5 Capture Event
"TIMER5_COMPA", // 47: Timer 5 Compare Match A
"TIMER5_COMPB", // 48: Timer 5 Compare Match B
"TIMER5_COMPC", // 49: Timer 5 Compare Match C
"TIMER5_OVF", // 50: Timer 5 Overflow
"RESERVED_51", // 51: Reserved 51
"RESERVED_52", // 52: Reserved 52
"RESERVED_53", // 53: Reserved 53
"RESERVED_54", // 54: Reserved 54
"RESERVED_55", // 55: Reserved 55
"RESERVED_56", // 56: Reserved 56
"TRX24_PLL_LOCK", // 57: TRX24 PLL Lock
"TRX24_PLL_UNLOCK", // 58: TRX24 PLL Unlock
"TRX24_RX_START", // 59: TRX24 Receive Start
"TRX24_RX_END", // 60: TRX24 Receive End
"TRX24_CCA_ED_DONE", // 61: TRX24 CCA/ED Done
"TRX24_XAH_AMI", // 62: TRX24 XAH/AMI
"TRX24_TX_END", // 63: TRX24 Transmit End
"TRX24_AWAKE", // 64: TRX24 AWAKE - Transceiver is Reaching State TRX_OFF
"SCNT_CMP1", // 65: Symbol Counter - Compare Match 1 Interrupt
"SCNT_CMP2", // 66: Symbol Counter - Compare Match 2 Interrupt
"SCNT_CMP3", // 67: Symbol Counter - Compare Match 3 Interrupt
"SCNT_OVFL", // 68: Symbol Counter - Overflow Interrupt
"SCNT_BACKOFF", // 69: Symbol Counter - Backoff Interrupt
"AES_READY", // 70: AES Engine Ready
"BAT_LOW", // 71: Battery Voltage Below Threshold
"TRX24_TX_START", // 72: TRX24 Transmit Start
"TRX24_AMI0", // 73: TRX24 Address Match 0
"TRX24_AMI1", // 74: TRX24 Address Match 1
"TRX24_AMI2", // 75: TRX24 Address Match 2
"TRX24_AMI3", // 76: TRX24 Address Match 3
};
const char * const vtab_atmega6450p[vts_atmega6450p] = { // ATmega6450P, ATmega6450A, ATmega6450, ATmega3250PA, ATmega3250P, ATmega3250A, ATmega3250
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"TIMER2_COMP", // 4: Timer 2 Compare Match
"TIMER2_OVF", // 5: Timer 2 Overflow
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMP", // 10: Timer 0 Compare Match
"TIMER0_OVF", // 11: Timer 0 Overflow
"SPI_STC", // 12: SPI Serial Transfer Complete
"USART_RX", // 13: USART Receive Complete
"USART_UDRE", // 14: USART Data Register Empty
"USART0_TX", // 15: USART 0 Transmit Complete
"USI_START", // 16: USI Start Condition
"USI_OVERFLOW", // 17: USI Overflow
"ANALOG_COMP", // 18: Analog Comparator
"ADC", // 19: ADC Conversion Complete
"EE_READY", // 20: EEPROM Ready
"SPM_READY", // 21: Store Program Memory Ready
"NOT_USED", // 22: Reserved
"PCINT2", // 23: Pin Change Interrupt 2
"PCINT3", // 24: Pin Change Interrupt 3
};
const char * const vtab_atmega6490p[vts_atmega6490p] = { // ATmega6490P, ATmega6490A, ATmega6490, ATmega3290PA, ATmega3290P, ATmega3290A, ATmega3290
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"PCINT0", // 2: Pin Change Interrupt 0
"PCINT1", // 3: Pin Change Interrupt 1
"TIMER2_COMP", // 4: Timer 2 Compare Match
"TIMER2_OVF", // 5: Timer 2 Overflow
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMP", // 10: Timer 0 Compare Match
"TIMER0_OVF", // 11: Timer 0 Overflow
"SPI_STC", // 12: SPI Serial Transfer Complete
"USART_RX", // 13: USART Receive Complete
"USART_UDRE", // 14: USART Data Register Empty
"USART0_TX", // 15: USART 0 Transmit Complete
"USI_START", // 16: USI Start Condition
"USI_OVERFLOW", // 17: USI Overflow
"ANALOG_COMP", // 18: Analog Comparator
"ADC", // 19: ADC Conversion Complete
"EE_READY", // 20: EEPROM Ready
"SPM_READY", // 21: Store Program Memory Ready
"LCD", // 22: LCD Start of Frame
"PCINT2", // 23: Pin Change Interrupt 2
"PCINT3", // 24: Pin Change Interrupt 3
};
const char * const vtab_atmega8515[vts_atmega8515] = { // ATmega8515
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER1_CAPT", // 3: Timer 1 Capture Event
"TIMER1_COMPA", // 4: Timer 1 Compare Match A
"TIMER1_COMPB", // 5: Timer 1 Compare Match B
"TIMER1_OVF", // 6: Timer 1 Overflow
"TIMER0_OVF", // 7: Timer 0 Overflow
"SPI_STC", // 8: SPI Serial Transfer Complete
"USART_RX", // 9: USART Receive Complete
"USART_UDRE", // 10: USART Data Register Empty
"USART_TX", // 11: USART Transmit Complete
"ANA_COMP", // 12: Analog Comparator
"INT2", // 13: External Interrupt 2
"TIMER0_COMP", // 14: Timer 0 Compare Match
"EE_RDY", // 15: EEPROM Ready
"SPM_RDY", // 16: Store Program Memory Ready
};
const char * const vtab_atmega8535[vts_atmega8535] = { // ATmega8535
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER2_COMP", // 3: Timer 2 Compare Match
"TIMER2_OVF", // 4: Timer 2 Overflow
"TIMER1_CAPT", // 5: Timer 1 Capture Event
"TIMER1_COMPA", // 6: Timer 1 Compare Match A
"TIMER1_COMPB", // 7: Timer 1 Compare Match B
"TIMER1_OVF", // 8: Timer 1 Overflow
"TIMER0_OVF", // 9: Timer 0 Overflow
"SPI_STC", // 10: SPI Serial Transfer Complete
"USART_RX", // 11: USART Receive Complete
"USART_UDRE", // 12: USART Data Register Empty
"USART_TX", // 13: USART Transmit Complete
"ADC", // 14: ADC Conversion Complete
"EE_RDY", // 15: EEPROM Ready
"ANA_COMP", // 16: Analog Comparator
"TWI", // 17: 2-Wire Interface
"INT2", // 18: External Interrupt 2
"TIMER0_COMP", // 19: Timer 0 Compare Match
"SPM_RDY", // 20: Store Program Memory Ready
};
const char * const vtab_at86rf401[vts_at86rf401] = { // AT86RF401
"RESET", // 0: Reset (various reasons)
"TXDONE", // 1: Transmit Complete
"TXEMPTY", // 2: Transmit Register Empty
};
const char * const vtab_at90pwm2[vts_at90pwm2] = { // AT90PWM2
"RESET", // 0: Reset (various reasons)
"PSC2_CAPT", // 1: PSC 2 Capture Event
"PSC2_EC", // 2: PSC 2 End Cycle
"PSC1_CAPT", // 3: PSC 1 Capture Event
"PSC1_EC", // 4: PSC 1 End Cycle
"PSC0_CAPT", // 5: PSC 0 Capture Event
"PSC0_EC", // 6: PSC 0 End Cycle
"ANALOG_COMP_0", // 7: Analog Comparator 0
"ANALOG_COMP_1", // 8: Analog Comparator 1
"ANALOG_COMP_2", // 9: Analog Comparator 2
"INT0", // 10: External Interrupt 0
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"UNUSED", // 14: not implemented on this device
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMP_A", // 16: Timer 0 Compare Match A
"TIMER0_OVF", // 17: Timer 0 Overflow
"ADC", // 18: ADC Conversion Complete
"INT1", // 19: External Interrupt 1
"SPI_STC", // 20: SPI Serial Transfer Complete
"USART_RX", // 21: USART Receive Complete
"USART_UDRE", // 22: USART Data Register Empty
"USART_TX", // 23: USART Transmit Complete
"INT2", // 24: External Interrupt 2
"WDT", // 25: Watchdog Time-out
"EE_READY", // 26: EEPROM Ready
"TIMER0_COMPB", // 27: Timer 0 Compare Match B
"INT3", // 28: External Interrupt 3
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"SPM_READY", // 31: Store Program Memory Ready
};
const char * const vtab_at90pwm3b[vts_at90pwm3b] = { // AT90PWM3B, AT90PWM3, AT90PWM2B
"RESET", // 0: Reset (various reasons)
"PSC2_CAPT", // 1: PSC 2 Capture Event
"PSC2_EC", // 2: PSC 2 End Cycle
"PSC1_CAPT", // 3: PSC 1 Capture Event
"PSC1_EC", // 4: PSC 1 End Cycle
"PSC0_CAPT", // 5: PSC 0 Capture Event
"PSC0_EC", // 6: PSC 0 End Cycle
"ANALOG_COMP_0", // 7: Analog Comparator 0
"ANALOG_COMP_1", // 8: Analog Comparator 1
"ANALOG_COMP_2", // 9: Analog Comparator 2
"INT0", // 10: External Interrupt 0
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"RESERVED15", // 14: Reserved 15
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMPA", // 16: Timer 0 Compare Match A
"TIMER0_OVF", // 17: Timer 0 Overflow
"ADC", // 18: ADC Conversion Complete
"INT1", // 19: External Interrupt 1
"SPI_STC", // 20: SPI Serial Transfer Complete
"USART_RX", // 21: USART Receive Complete
"USART_UDRE", // 22: USART Data Register Empty
"USART_TX", // 23: USART Transmit Complete
"INT2", // 24: External Interrupt 2
"WDT", // 25: Watchdog Time-out
"EE_READY", // 26: EEPROM Ready
"TIMER0_COMPB", // 27: Timer 0 Compare Match B
"INT3", // 28: External Interrupt 3
"RESERVED30", // 29: Reserved 30
"RESERVED31", // 30: Reserved 31
"SPM_READY", // 31: Store Program Memory Ready
};
const char * const vtab_at90scr100[vts_at90scr100] = { // AT90SCR100
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"PCINT0", // 5: Pin Change Interrupt 0
"PCINT1", // 6: Pin Change Interrupt 1
"PCINT2", // 7: Pin Change Interrupt 2
"WDT", // 8: Watchdog Time-out
"TIMER2_COMPA", // 9: Timer 2 Compare Match A
"TIMER2_COMPB", // 10: Timer 2 Compare Match B
"TIMER2_OVF", // 11: Timer 2 Overflow
"TIMER1_CAPT", // 12: Timer 1 Capture Event
"TIMER1_COMPA", // 13: Timer 1 Compare Match A
"TIMER1_COMPB", // 14: Timer 1 Compare Match B
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMPA", // 16: Timer 0 Compare Match A
"TIMER0_COMPB", // 17: Timer 0 Compare Match B
"TIMER0_OVF", // 18: Timer 0 Overflow
"SPI_STC", // 19: SPI Serial Transfer Complete
"USART0_RX", // 20: USART 0 Receive Complete
"USART0_UDRE", // 21: USART 0 Data Register Empty
"USART0_TX", // 22: USART 0 Transmit Complete
"SUPPLY_MON", // 23: Supply Monitor
"RFU", // 24: Reserved for Future Use
"EE_READY", // 25: EEPROM Ready
"TWI", // 26: 2-Wire Interface
"SPM_READY", // 27: Store Program Memory Ready
"KEYBOARD", // 28: Keyboard Input Change
"AES_Operation", // 29: AES Operation
"HSSPI", // 30: High-Speed SPI
"USB_Endpoint", // 31: USB Endpoint
"USB_Protocol", // 32: USB Protocol
"SCIB", // 33: Smart Card Reader Interface
"USBHost_Control", // 34: USB Host Controller
"USBHost_Pipe", // 35: USB Host Pipe
"CPRES", // 36: Card Presence Detection
"PCINT3", // 37: Pin Change Interrupt 3
};
const char * const vtab_at90can128[vts_at90can128] = { // AT90CAN128, AT90CAN64, AT90CAN32
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"INT2", // 3: External Interrupt 2
"INT3", // 4: External Interrupt 3
"INT4", // 5: External Interrupt 4
"INT5", // 6: External Interrupt 5
"INT6", // 7: External Interrupt 6
"INT7", // 8: External Interrupt 7
"TIMER2_COMP", // 9: Timer 2 Compare Match
"TIMER2_OVF", // 10: Timer 2 Overflow
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"TIMER1_COMPC", // 14: Timer 1 Compare Match C
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMP", // 16: Timer 0 Compare Match
"TIMER0_OVF", // 17: Timer 0 Overflow
"CANIT", // 18: CAN Transfer Complete or Error
"OVRIT", // 19: CAN Timer Overrun
"SPI_STC", // 20: SPI Serial Transfer Complete
"USART0_RX", // 21: USART 0 Receive Complete
"USART0_UDRE", // 22: USART 0 Data Register Empty
"USART0_TX", // 23: USART 0 Transmit Complete
"ANALOG_COMP", // 24: Analog Comparator
"ADC", // 25: ADC Conversion Complete
"EE_READY", // 26: EEPROM Ready
"TIMER3_CAPT", // 27: Timer 3 Capture Event
"TIMER3_COMPA", // 28: Timer 3 Compare Match A
"TIMER3_COMPB", // 29: Timer 3 Compare Match B
"TIMER3_COMPC", // 30: Timer 3 Compare Match C
"TIMER3_OVF", // 31: Timer 3 Overflow
"USART1_RX", // 32: USART 1 Receive Complete
"USART1_UDRE", // 33: USART 1 Data Register Empty
"USART1_TX", // 34: USART 1 Transmit Complete
"TWI", // 35: 2-Wire Interface
"SPM_READY", // 36: Store Program Memory Ready
};
const char * const vtab_at90pwm161[vts_at90pwm161] = { // AT90PWM161, AT90PWM81
"RESET", // 0: Reset (various reasons)
"PSC2_CAPT", // 1: PSC 2 Capture Event
"PSC2_EC", // 2: PSC 2 End Cycle
"PSC2_EEC", // 3: PSC 2 End Of Enhanced Cycle
"PSC0_CAPT", // 4: PSC 0 Capture Event
"PSC0_EC", // 5: PSC 0 End Cycle
"PSC0_EEC", // 6: PSC 0 End Of Enhanced Cycle
"ANALOG_COMP_1", // 7: Analog Comparator 1
"ANALOG_COMP_2", // 8: Analog Comparator 2
"ANALOG_COMP_3", // 9: Analog Comparator 3
"INT0", // 10: External Interrupt 0
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_OVF", // 12: Timer 1 Overflow
"ADC", // 13: ADC Conversion Complete
"INT1", // 14: External Interrupt 1
"SPI_STC", // 15: SPI Serial Transfer Complete
"INT2", // 16: External Interrupt 2
"WDT", // 17: Watchdog Time-out
"EE_READY", // 18: EEPROM Ready
"SPM_READY", // 19: Store Program Memory Ready
};
const char * const vtab_at90pwm316[vts_at90pwm316] = { // AT90PWM316, AT90PWM216, AT90PWM1
"RESET", // 0: Reset (various reasons)
"PSC2_CAPT", // 1: PSC 2 Capture Event
"PSC2_EC", // 2: PSC 2 End Cycle
"PSC1_CAPT", // 3: PSC 1 Capture Event
"PSC1_EC", // 4: PSC 1 End Cycle
"PSC0_CAPT", // 5: PSC 0 Capture Event
"PSC0_EC", // 6: PSC 0 End Cycle
"ANALOG_COMP_0", // 7: Analog Comparator 0
"ANALOG_COMP_1", // 8: Analog Comparator 1
"ANALOG_COMP_2", // 9: Analog Comparator 2
"INT0", // 10: External Interrupt 0
"TIMER1_CAPT", // 11: Timer 1 Capture Event
"TIMER1_COMPA", // 12: Timer 1 Compare Match A
"TIMER1_COMPB", // 13: Timer 1 Compare Match B
"RESERVED15", // 14: Reserved 15
"TIMER1_OVF", // 15: Timer 1 Overflow
"TIMER0_COMP_A", // 16: Timer 0 Compare Match A
"TIMER0_OVF", // 17: Timer 0 Overflow
"ADC", // 18: ADC Conversion Complete
"INT1", // 19: External Interrupt 1
"SPI_STC", // 20: SPI Serial Transfer Complete
"USART_RX", // 21: USART Receive Complete
"USART_UDRE", // 22: USART Data Register Empty
"USART_TX", // 23: USART Transmit Complete
"INT2", // 24: External Interrupt 2
"WDT", // 25: Watchdog Time-out
"EE_READY", // 26: EEPROM Ready
"TIMER0_COMPB", // 27: Timer 0 Compare Match B
"INT3", // 28: External Interrupt 3
"RESERVED30", // 29: Reserved 30
"RESERVED31", // 30: Reserved 31
"SPM_READY", // 31: Store Program Memory Ready
};
const char * const vtab_at90s1200[vts_at90s1200] = { // AT90S1200
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"TIMER0_OVF", // 2: Timer 0 Overflow
"ANA_COMP", // 3: Analog Comparator
};
const char * const vtab_at90s2313[vts_at90s2313] = { // AT90S2313
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER1_CAPT1", // 3: Timer 1 Capture Event
"TIMER1_COMP1", // 4: Timer 1 Compare
"TIMER1_OVF1", // 5: Timer 1 Overflow
"TIMER0_OVF0", // 6: Timer 0 Overflow
"UART_RX", // 7: UART Receive Complete
"UART_UDRE", // 8: UART Data Register Empty
"UART_TX", // 9: UART Transmit Complete
"ANA_COMP", // 10: Analog Comparator
};
const char * const vtab_at90s4433[vts_at90s4433] = { // AT90S4433, AT90S2333
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER1_CAPT", // 3: Timer 1 Capture Event
"TIMER1_COMP", // 4: Timer 1 Compare
"TIMER1_OVF", // 5: Timer 1 Overflow
"TIMER0_OVF", // 6: Timer 0 Overflow
"SPI_STC", // 7: SPI Serial Transfer Complete
"UART_RX", // 8: UART Receive Complete
"UART_UDRE", // 9: UART Data Register Empty
"UART_TX", // 10: UART Transmit Complete
"ADC", // 11: ADC Conversion Complete
"EE_RDY", // 12: EEPROM Ready
"ANA_COMP", // 13: Analog Comparator
};
const char * const vtab_at90s8515[vts_at90s8515] = { // AT90S8515, AT90S4414
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER1_CAPT", // 3: Timer 1 Capture Event
"TIMER1_COMPA", // 4: Timer 1 Compare Match A
"TIMER1_COMPB", // 5: Timer 1 Compare Match B
"TIMER1_OVF", // 6: Timer 1 Overflow
"TIMER0_OVF", // 7: Timer 0 Overflow
"SPI_STC", // 8: SPI Serial Transfer Complete
"UART_RX", // 9: UART Receive Complete
"UART_UDRE", // 10: UART Data Register Empty
"UART_TX", // 11: UART Transmit Complete
"ANA_COMP", // 12: Analog Comparator
};
const char * const vtab_at90s8535[vts_at90s8535] = { // AT90S8535, AT90S4434
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"TIMER2_COMP", // 3: Timer 2 Compare Match
"TIMER2_OVF", // 4: Timer 2 Overflow
"TIMER1_CAPT", // 5: Timer 1 Capture Event
"TIMER1_COMPA", // 6: Timer 1 Compare Match A
"TIMER1_COMPB", // 7: Timer 1 Compare Match B
"TIMER1_OVF", // 8: Timer 1 Overflow
"TIMER0_OVF", // 9: Timer 0 Overflow
"SPI_STC", // 10: SPI Serial Transfer Complete
"UART_RX", // 11: UART Receive Complete
"UART_UDRE", // 12: UART Data Register Empty
"UART_TX", // 13: UART Transmit Complete
"ADC", // 14: ADC Conversion Complete
"EE_RDY", // 15: EEPROM Ready
"ANA_COMP", // 16: Analog Comparator
};
const char * const vtab_ata5272[vts_ata5272] = { // ATA5272
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"WDT", // 5: Watchdog Time-out
"TIMER1_CAPT", // 6: Timer 1 Capture Event
"TIMER1_COMPA", // 7: Timer 1 Compare Match A
"TIMER1_COMPB", // 8: Timer 1 Compare Match B
"TIMER1_OVF", // 9: Timer 1 Overflow
"TIMER0_COMPA", // 10: Timer 0 Compare Match A
"TIMER0_OVF", // 11: Timer 0 Overflow
"LIN_TC", // 12: LIN Transfer Complete
"LIN_ERR", // 13: LIN Error
"SPI_STC", // 14: SPI Serial Transfer Complete
"ADC", // 15: ADC Conversion Complete
"EE_RDY", // 16: EEPROM Ready
"UNUSED", // 17: not implemented on this device
"UNUSED", // 18: not implemented on this device
"USI_OVF", // 19: USI Overflow
"UNUSED", // 20: not implemented on this device
"UNUSED", // 21: not implemented on this device
"UNUSED", // 22: not implemented on this device
"UNUSED", // 23: not implemented on this device
"UNUSED", // 24: not implemented on this device
"UNUSED", // 25: not implemented on this device
"UNUSED", // 26: not implemented on this device
"UNUSED", // 27: not implemented on this device
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"UNUSED", // 31: not implemented on this device
"UNUSED", // 32: not implemented on this device
"UNUSED", // 33: not implemented on this device
"ANA_COMP", // 34: Analog Comparator
"UNUSED", // 35: not implemented on this device
"USI_START", // 36: USI Start Condition
};
const char * const vtab_ata5702m322[vts_ata5702m322] = { // ATA5702M322, ATA5700M322
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCI0", // 3: Pin Change Interrupt Request 0
"PCI1", // 4: Pin Change Interrupt Request 1
"VMON", // 5: Voltage Monitoring
"AVCCR", // 6: AVCC Reset
"AVCCL", // 7: AVCC Low
"T0INT", // 8: Timer 0 Interrupt
"T1COMP", // 9: Timer 1 Compare and Match
"T1OVF", // 10: Timer 1 Overflow
"T2COMP", // 11: Timer 2 Compare and Match
"T2OVF", // 12: Timer 2 Overflow
"T3CAP", // 13: Timer 3 Capture Event
"T3COMP", // 14: Timer 3 Compare and Match
"T3OVF", // 15: Timer 3 Overflow
"T4CAP", // 16: Timer 4 Capture Event
"T4COMP", // 17: Timer 4 Compare and Match
"T4OVF", // 18: Timer 4 Overflow
"T5COMP", // 19: Timer 5 Compare and Match
"T5OVF", // 20: Timer 5 Overflow
"SPI", // 21: SPI Serial Peripheral Interface
"SRX_FIFO", // 22: SPI Receive Buffer
"STX_FIFO", // 23: SPI Transmit Buffer
"SSM", // 24: Sequencer State Machine
"DFFLR", // 25: Data FIFO Fill Level Reached
"DFOUE", // 26: Data FIFO Overflow or Underflow Error
"SFFLR", // 27: RSSI/Preamble FIFO Fill Level Reached
"SFOUE", // 28: RSSI/Preamble FIFO Overflow or Underflow Error
"TMTCF", // 29: Transmit Modulator Telegram Finished
"AES", // 30: AES Crypto Unit
"TPINT", // 31: Transponder Mode Interrupt
"TPTOERR", // 32: Transponder Timeout Error
"LFID0INT", // 33: LF Receiver Identifier 0 Interrupt
"LFID1INT", // 34: LF Receiver Identifier 1 Interrupt
"LFFEINT", // 35: LF Receiver Frame End Interrupt
"LFBCR", // 36: LF Receiver Bit Count Reached
"LFPBD", // 37: LF Receiver PreBurst Detected
"LFDE", // 38: LF Receiver Decoder Error
"LFEOT", // 39: LF Receiver End of Telegram
"LFTCOR", // 40: LF Receiver Timer Compare
"LFRSCO", // 41: LF Receiver RSSI Measurement
"LDFFLR", // 42: Data FIFO Fill Level Reached
"LDFOUE", // 43: Data FIFO Overflow or Underflow Error
"EXCM", // 44: External Input Clock Break Down
"E2CINT", // 45: EEPROM Error Correction Interrupt
"ERDY", // 46: EEPROM Ready
"SPMR", // 47: Store Program Memory Ready
"TWI1", // 48: 2-Wire Interface 1
"SPI2", // 49: SPI 2 Serial Peripheral Interface
"TWI2", // 50: 2-Wire Interface 2
};
const char * const vtab_ata5790[vts_ata5790] = { // ATA5790
"RESET", // 0: Reset (various reasons)
"TPINT", // 1: Transponder Mode Interrupt
"INT0", // 2: External Interrupt 0
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"VMINT", // 5: Voltage Monitoring Interrupt
"T0INT", // 6: Timer 0 Interrupt
"LFID0INT", // 7: LF Receiver Identifier 0 Interrupt
"LFID1INT", // 8: LF Receiver Identifier 1 Interrupt
"LFFEINT", // 9: LF Receiver Frame End Interrupt
"LFDBINT", // 10: LF Receiver Data Buffer Full Interrupt
"T3CAPINT", // 11: Timer 3 Capture Event Interrupt
"T3COMINT", // 12: Timer 3 Compare and Match Interrupt
"T3OVFINT", // 13: Timer 3 Overflow Interrupt
"T2COMINT", // 14: Timer 2 Compare and Match Interrupt
"T2OVFINT", // 15: Timer 2 Overflow Interrupt
"T1INT", // 16: Timer 1 Interrupt
"SPISTC", // 17: SPI Serial Transfer Complete
"TMRXBINT", // 18: Timer Modulator Receive Buffer Interrupt
"TMTXBINT", // 19: Timer Modulator Transmit Buffer Interrupt
"TMTXCINT", // 20: Timer Modulator Transmit Complete Interrupt
"AESINT", // 21: AES Crypto Unit Interrupt
"LFRSSINT", // 22: LF Receiver RSSI Interrupt
"LFSDINT", // 23: LF Receiver Signal Detect Interrupt
"LFMDINT", // 24: LF Receiver Manchester Decoder Error Interrupt
"EXCMINT", // 25: External Input Clock Monitoring Interrupt
"EXXMINT", // 26: External XTAL Oscillator Break Down Interrupt
"RTCINT", // 27: Real Time Clock Interrupt
"EEREADY", // 28: EEPROM Ready
"SPMREADY", // 29: Store Program Memory Ready
};
const char * const vtab_ata5791[vts_ata5791] = { // ATA5791, ATA5790N
"RESET", // 0: Reset (various reasons)
"TPINT", // 1: Transponder Mode Interrupt
"INT0", // 2: External Interrupt 0
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"VMINT", // 5: Voltage Monitoring Interrupt
"T0INT", // 6: Timer 0 Interrupt
"LFID0INT", // 7: LF Receiver Identifier 0 Interrupt
"LFID1INT", // 8: LF Receiver Identifier 1 Interrupt
"LFFEINT", // 9: LF Receiver Frame End Interrupt
"LFDBINT", // 10: LF Receiver Data Buffer Full Interrupt
"T3CAPINT", // 11: Timer 3 Capture Event Interrupt
"T3COMINT", // 12: Timer 3 Compare and Match Interrupt
"T3OVFINT", // 13: Timer 3 Overflow Interrupt
"T3COM2INT", // 14: Timer 3 Compare and Match 2 Interrupt
"T2COMINT", // 15: Timer 2 Compare and Match Interrupt
"T2OVFINT", // 16: Timer 2 Overflow Interrupt
"T1INT", // 17: Timer 1 Interrupt
"SPISTC", // 18: SPI Serial Transfer Complete
"TMRXBINT", // 19: Timer Modulator Receive Buffer Interrupt
"TMTXBINT", // 20: Timer Modulator Transmit Buffer Interrupt
"TMTXCINT", // 21: Timer Modulator Transmit Complete Interrupt
"AESINT", // 22: AES Crypto Unit Interrupt
"LFRSSINT", // 23: LF Receiver RSSI Interrupt
"LFSDINT", // 24: LF Receiver Signal Detect Interrupt
"LFMDINT", // 25: LF Receiver Manchester Decoder Error Interrupt
"EXCMINT", // 26: External Input Clock Monitoring Interrupt
"EXXMINT", // 27: External XTAL Oscillator Break Down Interrupt
"RTCINT", // 28: Real Time Clock Interrupt
"EEREADY", // 29: EEPROM Ready
"SPMREADY", // 30: Store Program Memory Ready
};
const char * const vtab_ata5795[vts_ata5795] = { // ATA5795
"RESET", // 0: Reset (various reasons)
"TPINT", // 1: Transponder Mode Interrupt
"INT0", // 2: External Interrupt 0
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"VMINT", // 5: Voltage Monitoring Interrupt
"T0INT", // 6: Timer 0 Interrupt
"T3CAPINT", // 7: Timer 3 Capture Event Interrupt
"T3COMINT", // 8: Timer 3 Compare and Match Interrupt
"T3OVFINT", // 9: Timer 3 Overflow Interrupt
"T2COMINT", // 10: Timer 2 Compare and Match Interrupt
"T2OVFINT", // 11: Timer 2 Overflow Interrupt
"T1INT", // 12: Timer 1 Interrupt
"SPISTC", // 13: SPI Serial Transfer Complete
"TMRXBINT", // 14: Timer Modulator Receive Buffer Interrupt
"TMTXBINT", // 15: Timer Modulator Transmit Buffer Interrupt
"TMTXCINT", // 16: Timer Modulator Transmit Complete Interrupt
"AESINT", // 17: AES Crypto Unit Interrupt
"EXCMINT", // 18: External Input Clock Monitoring Interrupt
"EXXMINT", // 19: External XTAL Oscillator Break Down Interrupt
"RTCINT", // 20: Real Time Clock Interrupt
"EEREADY", // 21: EEPROM Ready
"SPMREADY", // 22: Store Program Memory Ready
};
const char * const vtab_ata5835[vts_ata5835] = { // ATA5835, ATA5787
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCI0", // 3: Pin Change Interrupt Request 0
"PCI1", // 4: Pin Change Interrupt Request 1
"VMON", // 5: Voltage Monitoring
"AVCCR", // 6: AVCC Reset
"AVCCL", // 7: AVCC Low
"T0INT", // 8: Timer 0 Interrupt
"T1COMP", // 9: Timer 1 Compare and Match
"T1OVF", // 10: Timer 1 Overflow
"T2COMP", // 11: Timer 2 Compare and Match
"T2OVF", // 12: Timer 2 Overflow
"T3CAP", // 13: Timer 3 Capture Event
"T3COMP", // 14: Timer 3 Compare and Match
"T3OVF", // 15: Timer 3 Overflow
"T4CAP", // 16: Timer 4 Capture Event
"T4COMP", // 17: Timer 4 Compare and Match
"T4OVF", // 18: Timer 4 Overflow
"T5COMP", // 19: Timer 5 Compare and Match
"T5OVF", // 20: Timer 5 Overflow
"SPI", // 21: SPI Serial Peripheral Interface
"SRX_FIFO", // 22: SPI Receive Buffer
"STX_FIFO", // 23: SPI Transmit Buffer
"LINTC", // 24: LIN Transfer Complete
"LINERR", // 25: LIN Error
"SSM", // 26: Sequencer State Machine
"DFFLR", // 27: Data FIFO Fill Level Reached
"DFOUE", // 28: Data FIFO Overflow or Underflow Error
"SFFLR", // 29: RSSI/Preamble FIFO Fill Level Reached
"SFOUE", // 30: RSSI/Preamble FIFO Overflow or Underflow Error
"TMTCF", // 31: Transmit Modulator Telegram Finished
"UHF_WCOA", // 32: UHF Receiver Wake Up OK on Receive Path A
"UHF_WCOB", // 33: UHF Receiver Wake Up OK on Receive Path B
"UHF_SOTA", // 34: UHF Receiver Start of Telegram OK on Receive Path A
"UHF_SOTB", // 35: UHF Receiver Start of Telegram OK on Receive Path B
"UHF_EOTA", // 36: UHF Receiver End of Telegram on Receive Path A
"UHF_EOTB", // 37: UHF Receiver End of Telegram on Receive Path B
"UHF_NBITA", // 38: UHF Receiver New Bit on Receive Path A
"UHF_NBITB", // 39: UHF Receiver New Bit on Receive Path B
"EXCM", // 40: External Input Clock Break Down
"ERDY", // 41: EEPROM Ready
"SPMR", // 42: Store Program Memory Ready
"IDFULL", // 43: IDSCAN Full
};
const char * const vtab_ata6289[vts_ata6289] = { // ATA6289, ATA6286, ATA6285
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCINT0", // 3: Pin Change Interrupt 0
"PCINT1", // 4: Pin Change Interrupt 1
"PCINT2", // 5: Pin Change Interrupt 2
"INTVM", // 6: Voltage Monitor Interrupt
"SENINT", // 7: Sensor Interface Interrupt
"INTT0", // 8: Timer 0 Interval Interrupt
"LFWP", // 9: LF-Receiver Wake-up
"T3CAP", // 10: Timer 3 Capture Event
"T3COMA", // 11: Timer 3 Compare Match A
"T3COMB", // 12: Timer 3 Compare Match B
"T3OVF", // 13: Timer 3 Overflow
"T2CAP", // 14: Timer 2 Capture Event
"T2COM", // 15: Timer 2 Compare Match
"T2OVF", // 16: Timer 2 Overflow
"SPISTC", // 17: SPI Serial Transfer Complete
"LFRXB", // 18: LF Receive Buffer
"INTT1", // 19: Timer 1 Interval Interrupt
"T2RXB", // 20: Timer 2 SSI Receive Buffer
"T2TXB", // 21: Timer 2 SSI Transmit Buffer
"T2TXC", // 22: Timer 2 SSI Transmit Complete
"LFREOB", // 23: LF-Receiver End of Burst
"EXCM", // 24: External Input Clock Break Down
"EEREADY", // 25: EEPROM Ready
"SPM_RDY", // 26: Store Program Memory Ready
};
const char * const vtab_ata8515[vts_ata8515] = { // ATA8515, ATA8510, ATA8215, ATA8210, ATA5833, ATA5832, ATA5831, ATA5783, ATA5782, ATA5781
"RESET", // 0: Reset (various reasons)
"INT0", // 1: External Interrupt 0
"INT1", // 2: External Interrupt 1
"PCI0", // 3: Pin Change Interrupt Request 0
"PCI1", // 4: Pin Change Interrupt Request 1
"VMON", // 5: Voltage Monitoring
"AVCCR", // 6: AVCC Reset
"AVCCL", // 7: AVCC Low
"T0INT", // 8: Timer 0 Interrupt
"T1COMP", // 9: Timer 1 Compare and Match
"T1OVF", // 10: Timer 1 Overflow
"T2COMP", // 11: Timer 2 Compare and Match
"T2OVF", // 12: Timer 2 Overflow
"T3CAP", // 13: Timer 3 Capture Event
"T3COMP", // 14: Timer 3 Compare and Match
"T3OVF", // 15: Timer 3 Overflow
"T4CAP", // 16: Timer 4 Capture Event
"T4COMP", // 17: Timer 4 Compare and Match
"T4OVF", // 18: Timer 4 Overflow
"T5COMP", // 19: Timer 5 Compare and Match
"T5OVF", // 20: Timer 5 Overflow
"SPI", // 21: SPI Serial Peripheral Interface
"SRX_FIFO", // 22: SPI Receive Buffer
"STX_FIFO", // 23: SPI Transmit Buffer
"SSM", // 24: Sequencer State Machine
"DFFLR", // 25: Data FIFO Fill Level Reached
"DFOUE", // 26: Data FIFO Overflow or Underflow Error
"SFFLR", // 27: RSSI/Preamble FIFO Fill Level Reached
"SFOUE", // 28: RSSI/Preamble FIFO Overflow or Underflow Error
"TMTCF", // 29: Transmit Modulator Telegram Finished
"UHF_WCOB", // 30: UHF Receiver Wake Up OK on Receive Path B
"UHF_WCOA", // 31: UHF Receiver Wake Up OK on Receive Path A
"UHF_SOTB", // 32: UHF Receiver Start of Telegram OK on Receive Path B
"UHF_SOTA", // 33: UHF Receiver Start of Telegram OK on Receive Path A
"UHF_EOTB", // 34: UHF Receiver End of Telegram on Receive Path B
"UHF_EOTA", // 35: UHF Receiver End of Telegram on Receive Path A
"UHF_NBITB", // 36: UHF Receiver New Bit on Receive Path B
"UHF_NBITA", // 37: UHF Receiver New Bit on Receive Path A
"EXCM", // 38: External Input Clock Break Down
"ERDY", // 39: EEPROM Ready
"SPMR", // 40: Store Program Memory Ready
"IDFULL", // 41: IDSCAN Full
};
const char * const vtab_atxmega32a4[vts_atxmega32a4] = { // ATxmega32A4, ATxmega16A4
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF", // 14: TC C0 Overflow
"TCC0_ERR", // 15: TC C0 Error
"TCC0_CCA", // 16: TC C0 Compare or Capture A
"TCC0_CCB", // 17: TC C0 Compare or Capture B
"TCC0_CCC", // 18: TC C0 Compare or Capture C
"TCC0_CCD", // 19: TC C0 Compare or Capture D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"HIRESE_OVF", // 53: High-resolution Extension Overflow
"HIRESE_ERR", // 54: High-resolution Extension Error
"HIRESE_CCA", // 55: High-resolution Extension Compare and Capture A
"HIRESE_CCB", // 56: High-resolution Extension Compare and Capture B
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF", // 77: TC D0 Overflow
"TCD0_ERR", // 78: TC D0 Error
"TCD0_CCA", // 79: TC D0 Compare or Capture A
"TCD0_CCB", // 80: TC D0 Compare or Capture B
"TCD0_CCC", // 81: TC D0 Compare or Capture C
"TCD0_CCD", // 82: TC D0 Compare or Capture D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
};
const char * const vtab_atxmega32c4[vts_atxmega32c4] = { // ATxmega32C4, ATxmega16C4
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"UNUSED", // 6: not implemented on this device
"UNUSED", // 7: not implemented on this device
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"UNUSED", // 31: not implemented on this device
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"UNUSED", // 58: not implemented on this device
"UNUSED", // 59: not implemented on this device
"UNUSED", // 60: not implemented on this device
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"UNUSED", // 72: not implemented on this device
"UNUSED", // 73: not implemented on this device
"UNUSED", // 74: not implemented on this device
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"UNUSED", // 83: not implemented on this device
"UNUSED", // 84: not implemented on this device
"UNUSED", // 85: not implemented on this device
"UNUSED", // 86: not implemented on this device
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"UNUSED", // 91: not implemented on this device
"UNUSED", // 92: not implemented on this device
"UNUSED", // 93: not implemented on this device
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"UNUSED", // 104: not implemented on this device
"UNUSED", // 105: not implemented on this device
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"UNUSED", // 108: not implemented on this device
"UNUSED", // 109: not implemented on this device
"UNUSED", // 110: not implemented on this device
"UNUSED", // 111: not implemented on this device
"UNUSED", // 112: not implemented on this device
"UNUSED", // 113: not implemented on this device
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"UNUSED", // 119: not implemented on this device
"UNUSED", // 120: not implemented on this device
"UNUSED", // 121: not implemented on this device
"UNUSED", // 122: not implemented on this device
"UNUSED", // 123: not implemented on this device
"UNUSED", // 124: not implemented on this device
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega32d4[vts_atxmega32d4] = { // ATxmega32D4, ATxmega16D4
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"UNUSED", // 6: not implemented on this device
"UNUSED", // 7: not implemented on this device
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"UNUSED", // 31: not implemented on this device
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"UNUSED", // 58: not implemented on this device
"UNUSED", // 59: not implemented on this device
"UNUSED", // 60: not implemented on this device
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF", // 77: TC D0 Overflow
"TCD0_ERR", // 78: TC D0 Error
"TCD0_CCA", // 79: TC D0 Compare or Capture A
"TCD0_CCB", // 80: TC D0 Compare or Capture B
"TCD0_CCC", // 81: TC D0 Compare or Capture C
"TCD0_CCD", // 82: TC D0 Compare or Capture D
"UNUSED", // 83: not implemented on this device
"UNUSED", // 84: not implemented on this device
"UNUSED", // 85: not implemented on this device
"UNUSED", // 86: not implemented on this device
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
};
const char * const vtab_atxmega32e5[vts_atxmega32e5] = { // ATxmega32E5, ATxmega16E5, ATxmega8E5
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTR_INT", // 2: External Interrupt PORT R
"EDMA_CH0", // 3: External DMA Channel 0
"EDMA_CH1", // 4: External DMA Channel 1
"EDMA_CH2", // 5: External DMA Channel 2
"EDMA_CH3", // 6: External DMA Channel 3
"RTC_OVF", // 7: RTC Overflow
"RTC_COMP", // 8: RTC Compare
"PORTC_INT", // 9: External Interrupt PORT C
"TWIC_TWIS", // 10: 2-Wire Interface C Periphery
"TWIC_TWIM", // 11: 2-Wire Interface C Controller
"TCC4_OVF", // 12: TC C4 Overflow
"TCC4_ERR", // 13: TC C4 Error
"TCC4_CCA", // 14: TC C4 Compare or Capture A
"TCC4_CCB", // 15: TC C4 Compare or Capture B
"TCC4_CCC", // 16: TC C4 Compare or Capture C
"TCC4_CCD", // 17: TC C4 Compare or Capture D
"TCC5_OVF", // 18: TC C5 Overflow
"TCC5_ERR", // 19: TC C5 Error
"TCC5_CCA", // 20: TC C5 Compare or Capture A
"TCC5_CCB", // 21: TC C5 Compare or Capture B
"SPIC_INT", // 22: SPI C Interrupt
"USARTC0_RXC", // 23: USARTC 0 Reception Complete
"USARTC0_DRE", // 24: USARTC 0 Data Register Empty
"USARTC0_TXC", // 25: USARTC 0 Transmission Complete
"NVM_EE", // 26: NVM EEPROM
"NVM_SPM", // 27: NVM SPM
"XCL_UNF", // 28: XMEGA Custom Logic Underflow
"XCL_CC", // 29: XMEGA Custom Logic Compare or Capture
"PORTA_INT", // 30: External Interrupt PORT A
"ACA_AC0", // 31: ACA AC 0 Interrupt
"ACA_AC1", // 32: ACA AC 1 Interrupt
"ACA_ACW", // 33: ACA AC Window Mode
"ADCA_CH0", // 34: ADCA Interrupt 0
"PORTD_INT", // 35: External Interrupt PORT D
"TCD5_OVF", // 36: TC D5 Overflow
"TCD5_ERR", // 37: TC D5 Error
"TCD5_CCA", // 38: TC D5 Compare or Capture A
"TCD5_CCB", // 39: TC D5 Compare or Capture B
"USARTD0_RXC", // 40: USARTD 0 Reception Complete
"USARTD0_DRE", // 41: USARTD 0 Data Register Empty
"USARTD0_TXC", // 42: USARTD 0 Transmission Complete
};
const char * const vtab_atxmega128a1[vts_atxmega128a1] = { // ATxmega128A1, ATxmega64A1
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF", // 14: TC C0 Overflow
"TCC0_ERR", // 15: TC C0 Error
"TCC0_CCA", // 16: TC C0 Compare or Capture A
"TCC0_CCB", // 17: TC C0 Compare or Capture B
"TCC0_CCC", // 18: TC C0 Compare or Capture C
"TCC0_CCD", // 19: TC C0 Compare or Capture D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"ACB_AC0", // 36: ACB AC 0 Interrupt
"ACB_AC1", // 37: ACB AC 1 Interrupt
"ACB_ACW", // 38: ACB AC Window Mode
"ADCB_CH0", // 39: ADCB Interrupt 0
"ADCB_CH1", // 40: ADCB Interrupt 1
"ADCB_CH2", // 41: ADCB Interrupt 2
"ADCB_CH3", // 42: ADCB Interrupt 3
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"TCE1_OVF", // 53: TC E1 Overflow
"TCE1_ERR", // 54: TC E1 Error
"TCE1_CCA", // 55: TC E1 Compare or Capture A
"TCE1_CCB", // 56: TC E1 Compare or Capture B
"SPIE_INT", // 57: SPI E Interrupt
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"USARTE1_RXC", // 61: USARTE 1 Reception Complete
"USARTE1_DRE", // 62: USARTE 1 Data Register Empty
"USARTE1_TXC", // 63: USARTE 1 Transmission Complete
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"TWID_TWIS", // 75: 2-Wire Interface D Periphery
"TWID_TWIM", // 76: 2-Wire Interface D Controller
"TCD0_OVF", // 77: TC D0 Overflow
"TCD0_ERR", // 78: TC D0 Error
"TCD0_CCA", // 79: TC D0 Compare or Capture A
"TCD0_CCB", // 80: TC D0 Compare or Capture B
"TCD0_CCC", // 81: TC D0 Compare or Capture C
"TCD0_CCD", // 82: TC D0 Compare or Capture D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"PORTQ_INT0", // 94: External Interrupt 0 PORT Q
"PORTQ_INT1", // 95: External Interrupt 1 PORT Q
"PORTH_INT0", // 96: External Interrupt 0 PORT H
"PORTH_INT1", // 97: External Interrupt 1 PORT H
"PORTJ_INT0", // 98: External Interrupt 0 PORT J
"PORTJ_INT1", // 99: External Interrupt 1 PORT J
"PORTK_INT0", // 100: External Interrupt 0 PORT K
"PORTK_INT1", // 101: External Interrupt 1 PORT K
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"TWIF_TWIS", // 106: 2-Wire Interface F Periphery
"TWIF_TWIM", // 107: 2-Wire Interface F Controller
"TCF0_OVF", // 108: TC F0 Overflow
"TCF0_ERR", // 109: TC F0 Error
"TCF0_CCA", // 110: TC F0 Compare or Capture A
"TCF0_CCB", // 111: TC F0 Compare or Capture B
"TCF0_CCC", // 112: TC F0 Compare or Capture C
"TCF0_CCD", // 113: TC F0 Compare or Capture D
"TCF1_OVF", // 114: TC F1 Overflow
"TCF1_ERR", // 115: TC F1 Error
"TCF1_CCA", // 116: TC F1 Compare or Capture A
"TCF1_CCB", // 117: TC F1 Compare or Capture B
"SPIF_INT", // 118: SPI F Interrupt
"USARTF0_RXC", // 119: USARTF 0 Reception Complete
"USARTF0_DRE", // 120: USARTF 0 Data Register Empty
"USARTF0_TXC", // 121: USARTF 0 Transmission Complete
"USARTF1_RXC", // 122: USARTF 1 Reception Complete
"USARTF1_DRE", // 123: USARTF 1 Data Register Empty
"USARTF1_TXC", // 124: USARTF 1 Transmission Complete
};
const char * const vtab_atxmega128a1u[vts_atxmega128a1u] = { // ATxmega128A1U, ATxmega64A1U
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"ACB_AC0", // 36: ACB AC 0 Interrupt
"ACB_AC1", // 37: ACB AC 1 Interrupt
"ACB_ACW", // 38: ACB AC Window Mode
"ADCB_CH0", // 39: ADCB Interrupt 0
"ADCB_CH1", // 40: ADCB Interrupt 1
"ADCB_CH2", // 41: ADCB Interrupt 2
"ADCB_CH3", // 42: ADCB Interrupt 3
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF/TCE2_LUNF", // 47: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 48: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 49: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 50: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 51: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 52: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"TCE1_OVF", // 53: TC E1 Overflow
"TCE1_ERR", // 54: TC E1 Error
"TCE1_CCA", // 55: TC E1 Compare or Capture A
"TCE1_CCB", // 56: TC E1 Compare or Capture B
"SPIE_INT", // 57: SPI E Interrupt
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"USARTE1_RXC", // 61: USARTE 1 Reception Complete
"USARTE1_DRE", // 62: USARTE 1 Data Register Empty
"USARTE1_TXC", // 63: USARTE 1 Transmission Complete
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"TWID_TWIS", // 75: 2-Wire Interface D Periphery
"TWID_TWIM", // 76: 2-Wire Interface D Controller
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"PORTQ_INT0", // 94: External Interrupt 0 PORT Q
"PORTQ_INT1", // 95: External Interrupt 1 PORT Q
"PORTH_INT0", // 96: External Interrupt 0 PORT H
"PORTH_INT1", // 97: External Interrupt 1 PORT H
"PORTJ_INT0", // 98: External Interrupt 0 PORT J
"PORTJ_INT1", // 99: External Interrupt 1 PORT J
"PORTK_INT0", // 100: External Interrupt 0 PORT K
"PORTK_INT1", // 101: External Interrupt 1 PORT K
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"TWIF_TWIS", // 106: 2-Wire Interface F Periphery
"TWIF_TWIM", // 107: 2-Wire Interface F Controller
"TCF0_OVF/TCF2_LUNF", // 108: TC F0 Overflow/TC F2 Low Byte Underflow
"TCF0_ERR/TCF2_HUNF", // 109: TC F0 Error/TC F2 High Byte Underflow
"TCF0_CCA/TCF2_LCMPA", // 110: TC F0 Compare or Capture A/TC F2 Low Byte Compare A
"TCF0_CCB/TCF2_LCMPB", // 111: TC F0 Compare or Capture B/TC F2 Low Byte Compare B
"TCF0_CCC/TCF2_LCMPC", // 112: TC F0 Compare or Capture C/TC F2 Low Byte Compare C
"TCF0_CCD/TCF2_LCMPD", // 113: TC F0 Compare or Capture D/TC F2 Low Byte Compare D
"TCF1_OVF", // 114: TC F1 Overflow
"TCF1_ERR", // 115: TC F1 Error
"TCF1_CCA", // 116: TC F1 Compare or Capture A
"TCF1_CCB", // 117: TC F1 Compare or Capture B
"SPIF_INT", // 118: SPI F Interrupt
"USARTF0_RXC", // 119: USARTF 0 Reception Complete
"USARTF0_DRE", // 120: USARTF 0 Data Register Empty
"USARTF0_TXC", // 121: USARTF 0 Transmission Complete
"USARTF1_RXC", // 122: USARTF 1 Reception Complete
"USARTF1_DRE", // 123: USARTF 1 Data Register Empty
"USARTF1_TXC", // 124: USARTF 1 Transmission Complete
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega128b1[vts_atxmega128b1] = { // ATxmega128B1, ATxmega64B1
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"USB_BUSEVENT", // 31: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 32: USB Transaction Complete
"UNUSED", // 33: not implemented on this device
"UNUSED", // 34: not implemented on this device
"LCD_INT", // 35: LCD Interrupt
"AES_INT", // 36: AES Interrupt
"NVM_EE", // 37: NVM EEPROM
"NVM_SPM", // 38: NVM SPM
"PORTB_INT0", // 39: External Interrupt 0 PORT B
"PORTB_INT1", // 40: External Interrupt 1 PORT B
"ACB_AC0", // 41: ACB AC 0 Interrupt
"ACB_AC1", // 42: ACB AC 1 Interrupt
"ACB_ACW", // 43: ACB AC Window Mode
"ADCB_CH0", // 44: ADCB Interrupt 0
"UNUSED", // 45: not implemented on this device
"UNUSED", // 46: not implemented on this device
"UNUSED", // 47: not implemented on this device
"PORTD_INT0", // 48: External Interrupt 0 PORT D
"PORTD_INT1", // 49: External Interrupt 1 PORT D
"PORTG_INT0", // 50: External Interrupt 0 PORT G
"PORTG_INT1", // 51: External Interrupt 1 PORT G
"PORTM_INT0", // 52: External Interrupt 0 PORT M
"PORTM_INT1", // 53: External Interrupt 1 PORT M
"PORTE_INT0", // 54: External Interrupt 0 PORT E
"PORTE_INT1", // 55: External Interrupt 1 PORT E
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"TCE0_OVF/TCE2_LUNF", // 58: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 59: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 60: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 61: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 62: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 63: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"UNUSED", // 64: not implemented on this device
"UNUSED", // 65: not implemented on this device
"UNUSED", // 66: not implemented on this device
"UNUSED", // 67: not implemented on this device
"UNUSED", // 68: not implemented on this device
"USARTE0_RXC", // 69: USARTE 0 Reception Complete
"USARTE0_DRE", // 70: USARTE 0 Data Register Empty
"USARTE0_TXC", // 71: USARTE 0 Transmission Complete
"UNUSED", // 72: not implemented on this device
"UNUSED", // 73: not implemented on this device
"UNUSED", // 74: not implemented on this device
"PORTA_INT0", // 75: External Interrupt 0 PORT A
"PORTA_INT1", // 76: External Interrupt 1 PORT A
"ACA_AC0", // 77: ACA AC 0 Interrupt
"ACA_AC1", // 78: ACA AC 1 Interrupt
"ACA_ACW", // 79: ACA AC Window Mode
"ADCA_CH0", // 80: ADCA Interrupt 0
};
const char * const vtab_atxmega128b3[vts_atxmega128b3] = { // ATxmega128B3, ATxmega64B3
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"USB_BUSEVENT", // 31: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 32: USB Transaction Complete
"UNUSED", // 33: not implemented on this device
"UNUSED", // 34: not implemented on this device
"LCD_INT", // 35: LCD Interrupt
"AES_INT", // 36: AES Interrupt
"NVM_EE", // 37: NVM EEPROM
"NVM_SPM", // 38: NVM SPM
"PORTB_INT0", // 39: External Interrupt 0 PORT B
"PORTB_INT1", // 40: External Interrupt 1 PORT B
"ACB_AC0", // 41: ACB AC 0 Interrupt
"ACB_AC1", // 42: ACB AC 1 Interrupt
"ACB_ACW", // 43: ACB AC Window Mode
"ADCB_CH0", // 44: ADCB Interrupt 0
"UNUSED", // 45: not implemented on this device
"UNUSED", // 46: not implemented on this device
"UNUSED", // 47: not implemented on this device
"PORTD_INT0", // 48: External Interrupt 0 PORT D
"PORTD_INT1", // 49: External Interrupt 1 PORT D
"PORTG_INT0", // 50: External Interrupt 0 PORT G
"PORTG_INT1", // 51: External Interrupt 1 PORT G
"PORTM_INT0", // 52: External Interrupt 0 PORT M
"PORTM_INT1", // 53: External Interrupt 1 PORT M
};
const char * const vtab_atxmega128a4u[vts_atxmega128a4u] = { // ATxmega128A4U, ATxmega64A4U, ATxmega32A4U, ATxmega16A4U
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"UNUSED", // 104: not implemented on this device
"UNUSED", // 105: not implemented on this device
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"UNUSED", // 108: not implemented on this device
"UNUSED", // 109: not implemented on this device
"UNUSED", // 110: not implemented on this device
"UNUSED", // 111: not implemented on this device
"UNUSED", // 112: not implemented on this device
"UNUSED", // 113: not implemented on this device
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"UNUSED", // 119: not implemented on this device
"UNUSED", // 120: not implemented on this device
"UNUSED", // 121: not implemented on this device
"UNUSED", // 122: not implemented on this device
"UNUSED", // 123: not implemented on this device
"UNUSED", // 124: not implemented on this device
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega128d4[vts_atxmega128d4] = { // ATxmega128D4, ATxmega64D4
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"UNUSED", // 6: not implemented on this device
"UNUSED", // 7: not implemented on this device
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"UNUSED", // 31: not implemented on this device
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"UNUSED", // 72: not implemented on this device
"UNUSED", // 73: not implemented on this device
"UNUSED", // 74: not implemented on this device
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"UNUSED", // 83: not implemented on this device
"UNUSED", // 84: not implemented on this device
"UNUSED", // 85: not implemented on this device
"UNUSED", // 86: not implemented on this device
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
};
const char * const vtab_atxmega256a3[vts_atxmega256a3] = { // ATxmega256A3, ATxmega192A3, ATxmega128A3, ATxmega64A3
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF", // 14: TC C0 Overflow
"TCC0_ERR", // 15: TC C0 Error
"TCC0_CCA", // 16: TC C0 Compare or Capture A
"TCC0_CCB", // 17: TC C0 Compare or Capture B
"TCC0_CCC", // 18: TC C0 Compare or Capture C
"TCC0_CCD", // 19: TC C0 Compare or Capture D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"ACB_AC0", // 36: ACB AC 0 Interrupt
"ACB_AC1", // 37: ACB AC 1 Interrupt
"ACB_ACW", // 38: ACB AC Window Mode
"ADCB_CH0", // 39: ADCB Interrupt 0
"ADCB_CH1", // 40: ADCB Interrupt 1
"ADCB_CH2", // 41: ADCB Interrupt 2
"ADCB_CH3", // 42: ADCB Interrupt 3
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"TCE1_OVF", // 53: TC E1 Overflow
"TCE1_ERR", // 54: TC E1 Error
"TCE1_CCA", // 55: TC E1 Compare or Capture A
"TCE1_CCB", // 56: TC E1 Compare or Capture B
"SPIE_INT", // 57: SPI E Interrupt
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"USARTE1_RXC", // 61: USARTE 1 Reception Complete
"USARTE1_DRE", // 62: USARTE 1 Data Register Empty
"USARTE1_TXC", // 63: USARTE 1 Transmission Complete
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF", // 77: TC D0 Overflow
"TCD0_ERR", // 78: TC D0 Error
"TCD0_CCA", // 79: TC D0 Compare or Capture A
"TCD0_CCB", // 80: TC D0 Compare or Capture B
"TCD0_CCC", // 81: TC D0 Compare or Capture C
"TCD0_CCD", // 82: TC D0 Compare or Capture D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF", // 108: TC F0 Overflow
"TCF0_ERR", // 109: TC F0 Error
"TCF0_CCA", // 110: TC F0 Compare or Capture A
"TCF0_CCB", // 111: TC F0 Compare or Capture B
"TCF0_CCC", // 112: TC F0 Compare or Capture C
"TCF0_CCD", // 113: TC F0 Compare or Capture D
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"USARTF0_RXC", // 119: USARTF 0 Reception Complete
"USARTF0_DRE", // 120: USARTF 0 Data Register Empty
"USARTF0_TXC", // 121: USARTF 0 Transmission Complete
};
const char * const vtab_atxmega256a3b[vts_atxmega256a3b] = { // ATxmega256A3B
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC32_OVF", // 10: RTC32 Overflow
"RTC32_COMP", // 11: RTC32 Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF", // 14: TC C0 Overflow
"TCC0_ERR", // 15: TC C0 Error
"TCC0_CCA", // 16: TC C0 Compare or Capture A
"TCC0_CCB", // 17: TC C0 Compare or Capture B
"TCC0_CCC", // 18: TC C0 Compare or Capture C
"TCC0_CCD", // 19: TC C0 Compare or Capture D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"ACB_AC0", // 36: ACB AC 0 Interrupt
"ACB_AC1", // 37: ACB AC 1 Interrupt
"ACB_ACW", // 38: ACB AC Window Mode
"ADCB_CH0", // 39: ADCB Interrupt 0
"ADCB_CH1", // 40: ADCB Interrupt 1
"ADCB_CH2", // 41: ADCB Interrupt 2
"ADCB_CH3", // 42: ADCB Interrupt 3
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF", // 47: TC E0 Overflow
"TCE0_ERR", // 48: TC E0 Error
"TCE0_CCA", // 49: TC E0 Compare or Capture A
"TCE0_CCB", // 50: TC E0 Compare or Capture B
"TCE0_CCC", // 51: TC E0 Compare or Capture C
"TCE0_CCD", // 52: TC E0 Compare or Capture D
"TCE1_OVF", // 53: TC E1 Overflow
"TCE1_ERR", // 54: TC E1 Error
"TCE1_CCA", // 55: TC E1 Compare or Capture A
"TCE1_CCB", // 56: TC E1 Compare or Capture B
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF", // 77: TC D0 Overflow
"TCD0_ERR", // 78: TC D0 Error
"TCD0_CCA", // 79: TC D0 Compare or Capture A
"TCD0_CCB", // 80: TC D0 Compare or Capture B
"TCD0_CCC", // 81: TC D0 Compare or Capture C
"TCD0_CCD", // 82: TC D0 Compare or Capture D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF", // 108: TC F0 Overflow
"TCF0_ERR", // 109: TC F0 Error
"TCF0_CCA", // 110: TC F0 Compare or Capture A
"TCF0_CCB", // 111: TC F0 Compare or Capture B
"TCF0_CCC", // 112: TC F0 Compare or Capture C
"TCF0_CCD", // 113: TC F0 Compare or Capture D
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"USARTF0_RXC", // 119: USARTF 0 Reception Complete
"USARTF0_DRE", // 120: USARTF 0 Data Register Empty
"USARTF0_TXC", // 121: USARTF 0 Transmission Complete
};
const char * const vtab_atxmega256a3bu[vts_atxmega256a3bu] = { // ATxmega256A3BU
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC32_OVF", // 10: RTC32 Overflow
"RTC32_COMP", // 11: RTC32 Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"ACB_AC0", // 36: ACB AC 0 Interrupt
"ACB_AC1", // 37: ACB AC 1 Interrupt
"ACB_ACW", // 38: ACB AC Window Mode
"ADCB_CH0", // 39: ADCB Interrupt 0
"ADCB_CH1", // 40: ADCB Interrupt 1
"ADCB_CH2", // 41: ADCB Interrupt 2
"ADCB_CH3", // 42: ADCB Interrupt 3
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF/TCE2_LUNF", // 47: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 48: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 49: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 50: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 51: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 52: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"TCE1_OVF", // 53: TC E1 Overflow
"TCE1_ERR", // 54: TC E1 Error
"TCE1_CCA", // 55: TC E1 Compare or Capture A
"TCE1_CCB", // 56: TC E1 Compare or Capture B
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF/TCF2_LUNF", // 108: TC F0 Overflow/TC F2 Low Byte Underflow
"TCF0_ERR/TCF2_HUNF", // 109: TC F0 Error/TC F2 High Byte Underflow
"TCF0_CCA/TCF2_LCMPA", // 110: TC F0 Compare or Capture A/TC F2 Low Byte Compare A
"TCF0_CCB/TCF2_LCMPB", // 111: TC F0 Compare or Capture B/TC F2 Low Byte Compare B
"TCF0_CCC/TCF2_LCMPC", // 112: TC F0 Compare or Capture C/TC F2 Low Byte Compare C
"TCF0_CCD/TCF2_LCMPD", // 113: TC F0 Compare or Capture D/TC F2 Low Byte Compare D
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"USARTF0_RXC", // 119: USARTF 0 Reception Complete
"USARTF0_DRE", // 120: USARTF 0 Data Register Empty
"USARTF0_TXC", // 121: USARTF 0 Transmission Complete
"UNUSED", // 122: not implemented on this device
"UNUSED", // 123: not implemented on this device
"UNUSED", // 124: not implemented on this device
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega256a3u[vts_atxmega256a3u] = { // ATxmega256A3U, ATxmega192A3U, ATxmega128A3U, ATxmega64A3U
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"DMA_CH2", // 8: DMA Channel 2
"DMA_CH3", // 9: DMA Channel 3
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"ACB_AC0", // 36: ACB AC 0 Interrupt
"ACB_AC1", // 37: ACB AC 1 Interrupt
"ACB_ACW", // 38: ACB AC Window Mode
"ADCB_CH0", // 39: ADCB Interrupt 0
"ADCB_CH1", // 40: ADCB Interrupt 1
"ADCB_CH2", // 41: ADCB Interrupt 2
"ADCB_CH3", // 42: ADCB Interrupt 3
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF/TCE2_LUNF", // 47: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 48: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 49: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 50: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 51: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 52: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"TCE1_OVF", // 53: TC E1 Overflow
"TCE1_ERR", // 54: TC E1 Error
"TCE1_CCA", // 55: TC E1 Compare or Capture A
"TCE1_CCB", // 56: TC E1 Compare or Capture B
"SPIE_INT", // 57: SPI E Interrupt
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"USARTE1_RXC", // 61: USARTE 1 Reception Complete
"USARTE1_DRE", // 62: USARTE 1 Data Register Empty
"USARTE1_TXC", // 63: USARTE 1 Transmission Complete
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"ADCA_CH1", // 72: ADCA Interrupt 1
"ADCA_CH2", // 73: ADCA Interrupt 2
"ADCA_CH3", // 74: ADCA Interrupt 3
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"TCD1_OVF", // 83: TC D1 Overflow
"TCD1_ERR", // 84: TC D1 Error
"TCD1_CCA", // 85: TC D1 Compare or Capture A
"TCD1_CCB", // 86: TC D1 Compare or Capture B
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"USARTD1_RXC", // 91: USARTD 1 Reception Complete
"USARTD1_DRE", // 92: USARTD 1 Data Register Empty
"USARTD1_TXC", // 93: USARTD 1 Transmission Complete
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF/TCF2_LUNF", // 108: TC F0 Overflow/TC F2 Low Byte Underflow
"TCF0_ERR/TCF2_HUNF", // 109: TC F0 Error/TC F2 High Byte Underflow
"TCF0_CCA/TCF2_LCMPA", // 110: TC F0 Compare or Capture A/TC F2 Low Byte Compare A
"TCF0_CCB/TCF2_LCMPB", // 111: TC F0 Compare or Capture B/TC F2 Low Byte Compare B
"TCF0_CCC/TCF2_LCMPC", // 112: TC F0 Compare or Capture C/TC F2 Low Byte Compare C
"TCF0_CCD/TCF2_LCMPD", // 113: TC F0 Compare or Capture D/TC F2 Low Byte Compare D
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"USARTF0_RXC", // 119: USARTF 0 Reception Complete
"USARTF0_DRE", // 120: USARTF 0 Data Register Empty
"USARTF0_TXC", // 121: USARTF 0 Transmission Complete
"UNUSED", // 122: not implemented on this device
"UNUSED", // 123: not implemented on this device
"UNUSED", // 124: not implemented on this device
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega256c3[vts_atxmega256c3] = { // ATxmega256C3, ATxmega192C3, ATxmega128C3, ATxmega64C3, ATxmega32C3
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"UNUSED", // 6: not implemented on this device
"UNUSED", // 7: not implemented on this device
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"UNUSED", // 31: not implemented on this device
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF/TCE2_LUNF", // 47: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 48: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 49: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 50: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 51: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 52: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"UNUSED", // 72: not implemented on this device
"UNUSED", // 73: not implemented on this device
"UNUSED", // 74: not implemented on this device
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"UNUSED", // 83: not implemented on this device
"UNUSED", // 84: not implemented on this device
"UNUSED", // 85: not implemented on this device
"UNUSED", // 86: not implemented on this device
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"UNUSED", // 91: not implemented on this device
"UNUSED", // 92: not implemented on this device
"UNUSED", // 93: not implemented on this device
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF/TCF2_LUNF", // 108: TC F0 Overflow/TC F2 Low Byte Underflow
"TCF0_ERR/TCF2_HUNF", // 109: TC F0 Error/TC F2 High Byte Underflow
"TCF0_CCA/TCF2_LCMPA", // 110: TC F0 Compare or Capture A/TC F2 Low Byte Compare A
"TCF0_CCB/TCF2_LCMPB", // 111: TC F0 Compare or Capture B/TC F2 Low Byte Compare B
"TCF0_CCC/TCF2_LCMPC", // 112: TC F0 Compare or Capture C/TC F2 Low Byte Compare C
"TCF0_CCD/TCF2_LCMPD", // 113: TC F0 Compare or Capture D/TC F2 Low Byte Compare D
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"UNUSED", // 119: not implemented on this device
"UNUSED", // 120: not implemented on this device
"UNUSED", // 121: not implemented on this device
"UNUSED", // 122: not implemented on this device
"UNUSED", // 123: not implemented on this device
"UNUSED", // 124: not implemented on this device
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega384c3[vts_atxmega384c3] = { // ATxmega384C3
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"DMA_CH0", // 6: DMA Channel 0
"DMA_CH1", // 7: DMA Channel 1
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"USARTC1_RXC", // 28: USARTC 1 Reception Complete
"USARTC1_DRE", // 29: USARTC 1 Data Register Empty
"USARTC1_TXC", // 30: USARTC 1 Transmission Complete
"AES_INT", // 31: AES Interrupt
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF/TCE2_LUNF", // 47: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 48: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 49: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 50: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 51: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 52: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"UNUSED", // 72: not implemented on this device
"UNUSED", // 73: not implemented on this device
"UNUSED", // 74: not implemented on this device
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"UNUSED", // 83: not implemented on this device
"UNUSED", // 84: not implemented on this device
"UNUSED", // 85: not implemented on this device
"UNUSED", // 86: not implemented on this device
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"UNUSED", // 91: not implemented on this device
"UNUSED", // 92: not implemented on this device
"UNUSED", // 93: not implemented on this device
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF/TCF2_LUNF", // 108: TC F0 Overflow/TC F2 Low Byte Underflow
"TCF0_ERR/TCF2_HUNF", // 109: TC F0 Error/TC F2 High Byte Underflow
"TCF0_CCA/TCF2_LCMPA", // 110: TC F0 Compare or Capture A/TC F2 Low Byte Compare A
"TCF0_CCB/TCF2_LCMPB", // 111: TC F0 Compare or Capture B/TC F2 Low Byte Compare B
"TCF0_CCC/TCF2_LCMPC", // 112: TC F0 Compare or Capture C/TC F2 Low Byte Compare C
"TCF0_CCD/TCF2_LCMPD", // 113: TC F0 Compare or Capture D/TC F2 Low Byte Compare D
"UNUSED", // 114: not implemented on this device
"UNUSED", // 115: not implemented on this device
"UNUSED", // 116: not implemented on this device
"UNUSED", // 117: not implemented on this device
"UNUSED", // 118: not implemented on this device
"UNUSED", // 119: not implemented on this device
"UNUSED", // 120: not implemented on this device
"UNUSED", // 121: not implemented on this device
"UNUSED", // 122: not implemented on this device
"UNUSED", // 123: not implemented on this device
"UNUSED", // 124: not implemented on this device
"USB_BUSEVENT", // 125: SOF, Suspend, Resume, Reset Bus Event Interrupts, CRC, Underflow, Overflow or Stall Error
"USB_TRNCOMPL", // 126: USB Transaction Complete
};
const char * const vtab_atxmega384d3[vts_atxmega384d3] = { // ATxmega384D3, ATxmega256D3, ATxmega192D3, ATxmega128D3, ATxmega64D3, ATxmega32D3
"RESET", // 0: Reset (various reasons)
"OSC_OSCF", // 1: Oscillator Failure NMI
"PORTC_INT0", // 2: External Interrupt 0 PORT C
"PORTC_INT1", // 3: External Interrupt 1 PORT C
"PORTR_INT0", // 4: External Interrupt 0 PORT R
"PORTR_INT1", // 5: External Interrupt 1 PORT R
"UNUSED", // 6: not implemented on this device
"UNUSED", // 7: not implemented on this device
"UNUSED", // 8: not implemented on this device
"UNUSED", // 9: not implemented on this device
"RTC_OVF", // 10: RTC Overflow
"RTC_COMP", // 11: RTC Compare
"TWIC_TWIS", // 12: 2-Wire Interface C Periphery
"TWIC_TWIM", // 13: 2-Wire Interface C Controller
"TCC0_OVF/TCC2_LUNF", // 14: TC C0 Overflow/TC C2 Low Byte Underflow
"TCC0_ERR/TCC2_HUNF", // 15: TC C0 Error/TC C2 High Byte Underflow
"TCC0_CCA/TCC2_LCMPA", // 16: TC C0 Compare or Capture A/TC C2 Low Byte Compare A
"TCC0_CCB/TCC2_LCMPB", // 17: TC C0 Compare or Capture B/TC C2 Low Byte Compare B
"TCC0_CCC/TCC2_LCMPC", // 18: TC C0 Compare or Capture C/TC C2 Low Byte Compare C
"TCC0_CCD/TCC2_LCMPD", // 19: TC C0 Compare or Capture D/TC C2 Low Byte Compare D
"TCC1_OVF", // 20: TC C1 Overflow
"TCC1_ERR", // 21: TC C1 Error
"TCC1_CCA", // 22: TC C1 Compare or Capture A
"TCC1_CCB", // 23: TC C1 Compare or Capture B
"SPIC_INT", // 24: SPI C Interrupt
"USARTC0_RXC", // 25: USARTC 0 Reception Complete
"USARTC0_DRE", // 26: USARTC 0 Data Register Empty
"USARTC0_TXC", // 27: USARTC 0 Transmission Complete
"UNUSED", // 28: not implemented on this device
"UNUSED", // 29: not implemented on this device
"UNUSED", // 30: not implemented on this device
"UNUSED", // 31: not implemented on this device
"NVM_EE", // 32: NVM EEPROM
"NVM_SPM", // 33: NVM SPM
"PORTB_INT0", // 34: External Interrupt 0 PORT B
"PORTB_INT1", // 35: External Interrupt 1 PORT B
"UNUSED", // 36: not implemented on this device
"UNUSED", // 37: not implemented on this device
"UNUSED", // 38: not implemented on this device
"UNUSED", // 39: not implemented on this device
"UNUSED", // 40: not implemented on this device
"UNUSED", // 41: not implemented on this device
"UNUSED", // 42: not implemented on this device
"PORTE_INT0", // 43: External Interrupt 0 PORT E
"PORTE_INT1", // 44: External Interrupt 1 PORT E
"TWIE_TWIS", // 45: 2-Wire Interface E Periphery
"TWIE_TWIM", // 46: 2-Wire Interface E Controller
"TCE0_OVF/TCE2_LUNF", // 47: TC E0 Overflow/TC E2 Low Byte Underflow
"TCE0_ERR/TCE2_HUNF", // 48: TC E0 Error/TC E2 High Byte Underflow
"TCE0_CCA/TCE2_LCMPA", // 49: TC E0 Compare or Capture A/TC E2 Low Byte Compare A
"TCE0_CCB/TCE2_LCMPB", // 50: TC E0 Compare or Capture B/TC E2 Low Byte Compare B
"TCE0_CCC/TCE2_LCMPC", // 51: TC E0 Compare or Capture C/TC E2 Low Byte Compare C
"TCE0_CCD/TCE2_LCMPD", // 52: TC E0 Compare or Capture D/TC E2 Low Byte Compare D
"UNUSED", // 53: not implemented on this device
"UNUSED", // 54: not implemented on this device
"UNUSED", // 55: not implemented on this device
"UNUSED", // 56: not implemented on this device
"UNUSED", // 57: not implemented on this device
"USARTE0_RXC", // 58: USARTE 0 Reception Complete
"USARTE0_DRE", // 59: USARTE 0 Data Register Empty
"USARTE0_TXC", // 60: USARTE 0 Transmission Complete
"UNUSED", // 61: not implemented on this device
"UNUSED", // 62: not implemented on this device
"UNUSED", // 63: not implemented on this device
"PORTD_INT0", // 64: External Interrupt 0 PORT D
"PORTD_INT1", // 65: External Interrupt 1 PORT D
"PORTA_INT0", // 66: External Interrupt 0 PORT A
"PORTA_INT1", // 67: External Interrupt 1 PORT A
"ACA_AC0", // 68: ACA AC 0 Interrupt
"ACA_AC1", // 69: ACA AC 1 Interrupt
"ACA_ACW", // 70: ACA AC Window Mode
"ADCA_CH0", // 71: ADCA Interrupt 0
"UNUSED", // 72: not implemented on this device
"UNUSED", // 73: not implemented on this device
"UNUSED", // 74: not implemented on this device
"UNUSED", // 75: not implemented on this device
"UNUSED", // 76: not implemented on this device
"TCD0_OVF/TCD2_LUNF", // 77: TC D0 Overflow/TC D2 Low Byte Underflow
"TCD0_ERR/TCD2_HUNF", // 78: TC D0 Error/TC D2 High Byte Underflow
"TCD0_CCA/TCD2_LCMPA", // 79: TC D0 Compare or Capture A/TC D2 Low Byte Compare A
"TCD0_CCB/TCD2_LCMPB", // 80: TC D0 Compare or Capture B/TC D2 Low Byte Compare B
"TCD0_CCC/TCD2_LCMPC", // 81: TC D0 Compare or Capture C/TC D2 Low Byte Compare C
"TCD0_CCD/TCD2_LCMPD", // 82: TC D0 Compare or Capture D/TC D2 Low Byte Compare D
"UNUSED", // 83: not implemented on this device
"UNUSED", // 84: not implemented on this device
"UNUSED", // 85: not implemented on this device
"UNUSED", // 86: not implemented on this device
"SPID_INT", // 87: SPI D Interrupt
"USARTD0_RXC", // 88: USARTD 0 Reception Complete
"USARTD0_DRE", // 89: USARTD 0 Data Register Empty
"USARTD0_TXC", // 90: USARTD 0 Transmission Complete
"UNUSED", // 91: not implemented on this device
"UNUSED", // 92: not implemented on this device
"UNUSED", // 93: not implemented on this device
"UNUSED", // 94: not implemented on this device
"UNUSED", // 95: not implemented on this device
"UNUSED", // 96: not implemented on this device
"UNUSED", // 97: not implemented on this device
"UNUSED", // 98: not implemented on this device
"UNUSED", // 99: not implemented on this device
"UNUSED", // 100: not implemented on this device
"UNUSED", // 101: not implemented on this device
"UNUSED", // 102: not implemented on this device
"UNUSED", // 103: not implemented on this device
"PORTF_INT0", // 104: External Interrupt 0 PORT F
"PORTF_INT1", // 105: External Interrupt 1 PORT F
"UNUSED", // 106: not implemented on this device
"UNUSED", // 107: not implemented on this device
"TCF0_OVF/TCF2_LUNF", // 108: TC F0 Overflow/TC F2 Low Byte Underflow
"TCF0_ERR/TCF2_HUNF", // 109: TC F0 Error/TC F2 High Byte Underflow
"TCF0_CCA/TCF2_LCMPA", // 110: TC F0 Compare or Capture A/TC F2 Low Byte Compare A
"TCF0_CCB/TCF2_LCMPB", // 111: TC F0 Compare or Capture B/TC F2 Low Byte Compare B
"TCF0_CCC/TCF2_LCMPC", // 112: TC F0 Compare or Capture C/TC F2 Low Byte Compare C
"TCF0_CCD/TCF2_LCMPD", // 113: TC F0 Compare or Capture D/TC F2 Low Byte Compare D
};
const char * const vtab_attiny402[vts_attiny402] = { // ATtiny402, ATtiny202
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"UNUSED", // 4: not implemented on this device
"UNUSED", // 5: not implemented on this device
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"UNUSED", // 14: not implemented on this device
"UNUSED", // 15: not implemented on this device
"AC0_AC", // 16: AC0 AC Interrupt
"ADC0_RESRDY", // 17: ADC 0 Result Ready
"ADC0_WCOMP", // 18: ADC 0 Window Comparator
"TWI0_TWIS", // 19: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 20: 2-Wire Interface 0 Controller
"SPI0_INT", // 21: SPI 0 Interrupt
"USART0_RXC", // 22: USART 0 Receive Complete
"USART0_DRE", // 23: USART 0 Data Register Empty
"USART0_TXC", // 24: USART 0 Transmit Complete
"NVMCTRL_EE", // 25: NVM EEPROM
};
const char * const vtab_attiny404[vts_attiny404] = { // ATtiny404, ATtiny204
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"UNUSED", // 5: not implemented on this device
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"UNUSED", // 14: not implemented on this device
"UNUSED", // 15: not implemented on this device
"AC0_AC", // 16: AC0 AC Interrupt
"ADC0_RESRDY", // 17: ADC 0 Result Ready
"ADC0_WCOMP", // 18: ADC 0 Window Comparator
"TWI0_TWIS", // 19: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 20: 2-Wire Interface 0 Controller
"SPI0_INT", // 21: SPI 0 Interrupt
"USART0_RXC", // 22: USART 0 Receive Complete
"USART0_DRE", // 23: USART 0 Data Register Empty
"USART0_TXC", // 24: USART 0 Transmit Complete
"NVMCTRL_EE", // 25: NVM EEPROM
};
const char * const vtab_attiny406[vts_attiny406] = { // ATtiny406
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"PORTC_PORT", // 5: Interrupt PORT C
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"UNUSED", // 14: not implemented on this device
"UNUSED", // 15: not implemented on this device
"AC0_AC", // 16: AC0 AC Interrupt
"ADC0_RESRDY", // 17: ADC 0 Result Ready
"ADC0_WCOMP", // 18: ADC 0 Window Comparator
"TWI0_TWIS", // 19: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 20: 2-Wire Interface 0 Controller
"SPI0_INT", // 21: SPI 0 Interrupt
"USART0_RXC", // 22: USART 0 Receive Complete
"USART0_DRE", // 23: USART 0 Data Register Empty
"USART0_TXC", // 24: USART 0 Transmit Complete
"NVMCTRL_EE", // 25: NVM EEPROM
};
const char * const vtab_attiny412[vts_attiny412] = { // ATtiny412, ATtiny212
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"UNUSED", // 4: not implemented on this device
"UNUSED", // 5: not implemented on this device
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"AC0_AC", // 16: AC0 AC Interrupt
"ADC0_RESRDY", // 17: ADC 0 Result Ready
"ADC0_WCOMP", // 18: ADC 0 Window Comparator
"TWI0_TWIS", // 19: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 20: 2-Wire Interface 0 Controller
"SPI0_INT", // 21: SPI 0 Interrupt
"USART0_RXC", // 22: USART 0 Receive Complete
"USART0_DRE", // 23: USART 0 Data Register Empty
"USART0_TXC", // 24: USART 0 Transmit Complete
"NVMCTRL_EE", // 25: NVM EEPROM
};
const char * const vtab_attiny814[vts_attiny814] = { // ATtiny814, ATtiny414, ATtiny214
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"UNUSED", // 5: not implemented on this device
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"AC0_AC", // 16: AC0 AC Interrupt
"ADC0_RESRDY", // 17: ADC 0 Result Ready
"ADC0_WCOMP", // 18: ADC 0 Window Comparator
"TWI0_TWIS", // 19: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 20: 2-Wire Interface 0 Controller
"SPI0_INT", // 21: SPI 0 Interrupt
"USART0_RXC", // 22: USART 0 Receive Complete
"USART0_DRE", // 23: USART 0 Data Register Empty
"USART0_TXC", // 24: USART 0 Transmit Complete
"NVMCTRL_EE", // 25: NVM EEPROM
};
const char * const vtab_attiny817[vts_attiny817] = { // ATtiny817, ATtiny816, ATtiny417, ATtiny416auto, ATtiny416
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"PORTC_PORT", // 5: Interrupt PORT C
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"AC0_AC", // 16: AC0 AC Interrupt
"ADC0_RESRDY", // 17: ADC 0 Result Ready
"ADC0_WCOMP", // 18: ADC 0 Window Comparator
"TWI0_TWIS", // 19: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 20: 2-Wire Interface 0 Controller
"SPI0_INT", // 21: SPI 0 Interrupt
"USART0_RXC", // 22: USART 0 Receive Complete
"USART0_DRE", // 23: USART 0 Data Register Empty
"USART0_TXC", // 24: USART 0 Transmit Complete
"NVMCTRL_EE", // 25: NVM EEPROM
};
const char * const vtab_attiny1607[vts_attiny1607] = { // ATtiny1607, ATtiny1606, ATtiny1604, ATtiny807, ATtiny806, ATtiny804
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"PORTC_PORT", // 5: Interrupt PORT C
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"UNUSED", // 14: not implemented on this device
"UNUSED", // 15: not implemented on this device
"UNUSED", // 16: not implemented on this device
"AC0_AC", // 17: AC0 AC Interrupt
"UNUSED", // 18: not implemented on this device
"UNUSED", // 19: not implemented on this device
"ADC0_RESRDY", // 20: ADC 0 Result Ready
"ADC0_WCOMP", // 21: ADC 0 Window Comparator
"UNUSED", // 22: not implemented on this device
"UNUSED", // 23: not implemented on this device
"TWI0_TWIS", // 24: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 25: 2-Wire Interface 0 Controller
"SPI0_INT", // 26: SPI 0 Interrupt
"USART0_RXC", // 27: USART 0 Receive Complete
"USART0_DRE", // 28: USART 0 Data Register Empty
"USART0_TXC", // 29: USART 0 Transmit Complete
"NVMCTRL_EE", // 30: NVM EEPROM
};
const char * const vtab_attiny1614[vts_attiny1614] = { // ATtiny1614
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"UNUSED", // 5: not implemented on this device
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCB1_INT", // 14: TC B1 Interrupt
"TCD0_OVF", // 15: TC D0 Overflow
"TCD0_TRIG", // 16: TC D0 Trigger
"AC0_AC", // 17: AC0 AC Interrupt
"AC1_AC", // 18: AC1 AC Interrupt
"AC2_AC", // 19: AC2 AC Interrupt
"ADC0_RESRDY", // 20: ADC 0 Result Ready
"ADC0_WCOMP", // 21: ADC 0 Window Comparator
"ADC1_RESRDY", // 22: ADC 1 Result Ready
"ADC1_WCOMP", // 23: ADC 1 Window Comparator
"TWI0_TWIS", // 24: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 25: 2-Wire Interface 0 Controller
"SPI0_INT", // 26: SPI 0 Interrupt
"USART0_RXC", // 27: USART 0 Receive Complete
"USART0_DRE", // 28: USART 0 Data Register Empty
"USART0_TXC", // 29: USART 0 Transmit Complete
"NVMCTRL_EE", // 30: NVM EEPROM
};
const char * const vtab_attiny3214[vts_attiny3214] = { // ATtiny3214
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"PORTC_PORT", // 5: Interrupt PORT C
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF", // 8: TC A0 Low Underflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0", // 10: TC A0 Compare 0
"TCA0_CMP1", // 11: TC A0 Compare 1
"TCA0_CMP2", // 12: TC A0 Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCB1_INT", // 14: TC B1 Interrupt
"TCD0_OVF", // 15: TC D0 Overflow
"TCD0_TRIG", // 16: TC D0 Trigger
"AC0_AC", // 17: AC0 AC Interrupt
"AC1_AC", // 18: AC1 AC Interrupt
"AC2_AC", // 19: AC2 AC Interrupt
"ADC0_RESRDY", // 20: ADC 0 Result Ready
"ADC0_WCOMP", // 21: ADC 0 Window Comparator
"ADC1_RESRDY", // 22: ADC 1 Result Ready
"ADC1_WCOMP", // 23: ADC 1 Window Comparator
"TWI0_TWIS", // 24: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 25: 2-Wire Interface 0 Controller
"SPI0_INT", // 26: SPI 0 Interrupt
"USART0_RXC", // 27: USART 0 Receive Complete
"USART0_DRE", // 28: USART 0 Data Register Empty
"USART0_TXC", // 29: USART 0 Transmit Complete
"NVMCTRL_EE", // 30: NVM EEPROM
};
const char * const vtab_attiny3217[vts_attiny3217] = { // ATtiny3217, ATtiny3216, ATtiny1617, ATtiny1616
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"PORTA_PORT", // 3: Interrupt PORT A
"PORTB_PORT", // 4: Interrupt PORT B
"PORTC_PORT", // 5: Interrupt PORT C
"RTC_CNT", // 6: RTC Counter Interrupt
"RTC_PIT", // 7: RTC Periodic Interrupt Timer
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCB1_INT", // 14: TC B1 Interrupt
"TCD0_OVF", // 15: TC D0 Overflow
"TCD0_TRIG", // 16: TC D0 Trigger
"AC0_AC", // 17: AC0 AC Interrupt
"AC1_AC", // 18: AC1 AC Interrupt
"AC2_AC", // 19: AC2 AC Interrupt
"ADC0_RESRDY", // 20: ADC 0 Result Ready
"ADC0_WCOMP", // 21: ADC 0 Window Comparator
"ADC1_RESRDY", // 22: ADC 1 Result Ready
"ADC1_WCOMP", // 23: ADC 1 Window Comparator
"TWI0_TWIS", // 24: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 25: 2-Wire Interface 0 Controller
"SPI0_INT", // 26: SPI 0 Interrupt
"USART0_RXC", // 27: USART 0 Receive Complete
"USART0_DRE", // 28: USART 0 Data Register Empty
"USART0_TXC", // 29: USART 0 Transmit Complete
"NVMCTRL_EE", // 30: NVM EEPROM
};
const char * const vtab_attiny3227[vts_attiny3227] = { // ATtiny3227, ATtiny3226, ATtiny3224, ATtiny1627, ATtiny1626, ATtiny1624, ATtiny827, ATtiny826, ATtiny824, ATtiny427, ATtiny426, ATtiny424
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"PORTB_PORT", // 7: Interrupt PORT B
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TWI0_TWIS", // 14: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 15: 2-Wire Interface 0 Controller
"SPI0_INT", // 16: SPI 0 Interrupt
"USART0_RXC", // 17: USART 0 Receive Complete
"USART0_DRE", // 18: USART 0 Data Register Empty
"USART0_TXC", // 19: USART 0 Transmit Complete
"AC0_AC", // 20: AC0 AC Interrupt
"ADC0_ERROR", // 21: ADC 0 Error
"ADC0_RESRDY", // 22: ADC 0 Result Ready
"ADC0_SAMPRDY", // 23: ADC 0 Sample Ready
"PORTC_PORT", // 24: Interrupt PORT C
"TCB1_INT", // 25: TC B1 Interrupt
"USART1_RXC", // 26: USART 1 Receive Complete
"USART1_DRE", // 27: USART 1 Data Register Empty
"USART1_TXC", // 28: USART 1 Transmit Complete
"NVMCTRL_EE", // 29: NVM EEPROM
};
const char * const vtab_atmega4808[vts_atmega4808] = { // ATmega4808, ATmega3208, ATmega1608, ATmega808
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 7: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 8: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 9: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 10: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 11: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 12: TC B0 Interrupt
"TCB1_INT", // 13: TC B1 Interrupt
"TWI0_TWIS", // 14: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 15: 2-Wire Interface 0 Controller
"SPI0_INT", // 16: SPI 0 Interrupt
"USART0_RXC", // 17: USART 0 Receive Complete
"USART0_DRE", // 18: USART 0 Data Register Empty
"USART0_TXC", // 19: USART 0 Transmit Complete
"PORTD_PORT", // 20: Interrupt PORT D
"AC0_AC", // 21: AC0 AC Interrupt
"ADC0_RESRDY", // 22: ADC 0 Result Ready
"ADC0_WCOMP", // 23: ADC 0 Window Comparator
"PORTC_PORT", // 24: Interrupt PORT C
"TCB2_INT", // 25: TC B2 Interrupt
"USART1_RXC", // 26: USART 1 Receive Complete
"USART1_DRE", // 27: USART 1 Data Register Empty
"USART1_TXC", // 28: USART 1 Transmit Complete
"PORTF_PORT", // 29: Interrupt PORT F
"NVMCTRL_EE", // 30: NVM EEPROM
"USART2_RXC", // 31: USART 2 Receive Complete
"USART2_DRE", // 32: USART 2 Data Register Empty
"USART2_TXC", // 33: USART 2 Transmit Complete
"PORTB_PORT", // 34: Interrupt PORT B
"PORTE_PORT", // 35: Interrupt PORT E
};
const char * const vtab_atmega4809[vts_atmega4809] = { // ATmega4809, ATmega3209, ATmega1609, ATmega809
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 7: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 8: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 9: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 10: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 11: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 12: TC B0 Interrupt
"TCB1_INT", // 13: TC B1 Interrupt
"TWI0_TWIS", // 14: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 15: 2-Wire Interface 0 Controller
"SPI0_INT", // 16: SPI 0 Interrupt
"USART0_RXC", // 17: USART 0 Receive Complete
"USART0_DRE", // 18: USART 0 Data Register Empty
"USART0_TXC", // 19: USART 0 Transmit Complete
"PORTD_PORT", // 20: Interrupt PORT D
"AC0_AC", // 21: AC0 AC Interrupt
"ADC0_RESRDY", // 22: ADC 0 Result Ready
"ADC0_WCOMP", // 23: ADC 0 Window Comparator
"PORTC_PORT", // 24: Interrupt PORT C
"TCB2_INT", // 25: TC B2 Interrupt
"USART1_RXC", // 26: USART 1 Receive Complete
"USART1_DRE", // 27: USART 1 Data Register Empty
"USART1_TXC", // 28: USART 1 Transmit Complete
"PORTF_PORT", // 29: Interrupt PORT F
"NVMCTRL_EE", // 30: NVM EEPROM
"USART2_RXC", // 31: USART 2 Receive Complete
"USART2_DRE", // 32: USART 2 Data Register Empty
"USART2_TXC", // 33: USART 2 Transmit Complete
"PORTB_PORT", // 34: Interrupt PORT B
"PORTE_PORT", // 35: Interrupt PORT E
"TCB3_INT", // 36: TC B3 Interrupt
"USART3_RXC", // 37: USART 3 Receive Complete
"USART3_DRE", // 38: USART 3 Data Register Empty
"USART3_TXC", // 39: USART 3 Transmit Complete
};
const char * const vtab_avr64dd32[vts_avr64dd32] = { // AVR64DD32, AVR64DD28, AVR64DD20, AVR64DD14, AVR32DD32, AVR32DD28, AVR32DD20, AVR32DD14, AVR16DD32, AVR16DD28, AVR16DD20, AVR16DD14
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"MVIO_MVIO", // 4: Multi-Voltage I/O
"RTC_CNT", // 5: RTC Counter Interrupt
"RTC_PIT", // 6: RTC Periodic Interrupt Timer
"CCL_CCL", // 7: Configurable Custom Logic
"PORTA_PORT", // 8: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 9: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 10: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 11: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 12: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 13: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 14: TC B0 Interrupt
"TCB1_INT", // 15: TC B1 Interrupt
"TCD0_OVF", // 16: TC D0 Overflow
"TCD0_TRIG", // 17: TC D0 Trigger
"TWI0_TWIS", // 18: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 19: 2-Wire Interface 0 Controller
"SPI0_INT", // 20: SPI 0 Interrupt
"USART0_RXC", // 21: USART 0 Receive Complete
"USART0_DRE", // 22: USART 0 Data Register Empty
"USART0_TXC", // 23: USART 0 Transmit Complete
"PORTD_PORT", // 24: Interrupt PORT D
"AC0_AC", // 25: AC0 AC Interrupt
"ADC0_RESRDY", // 26: ADC 0 Result Ready
"ADC0_WCMP", // 27: ADC 0 Window Comparator
"ZCD3_ZCD", // 28: Zero Cross Detect 3
"PORTC_PORT", // 29: Interrupt PORT C
"TCB2_INT", // 30: TC B2 Interrupt
"USART1_RXC", // 31: USART 1 Receive Complete
"USART1_DRE", // 32: USART 1 Data Register Empty
"USART1_TXC", // 33: USART 1 Transmit Complete
"PORTF_PORT", // 34: Interrupt PORT F
"NVMCTRL_EE", // 35: NVM EEPROM
};
const char * const vtab_avr64ea32[vts_avr64ea32] = { // AVR64EA32, AVR64EA28
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"RTC_CNT", // 4: RTC Counter Interrupt
"RTC_PIT", // 5: RTC Periodic Interrupt Timer
"CCL_CCL", // 6: Configurable Custom Logic
"PORTA_PORT", // 7: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCB1_INT", // 14: TC B1 Interrupt
"TWI0_TWIS", // 15: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 16: 2-Wire Interface 0 Controller
"SPI0_INT", // 17: SPI 0 Interrupt
"USART0_RXC", // 18: USART 0 Receive Complete
"USART0_DRE", // 19: USART 0 Data Register Empty
"USART0_TXC", // 20: USART 0 Transmit Complete
"PORTD_PORT", // 21: Interrupt PORT D
"AC0_AC", // 22: AC0 AC Interrupt
"ADC0_ERROR", // 23: ADC 0 Error
"ADC0_RESRDY", // 24: ADC 0 Result Ready
"ADC0_SAMPRDY", // 25: ADC 0 Sample Ready
"AC1_AC", // 26: AC1 AC Interrupt
"PORTC_PORT", // 27: Interrupt PORT C
"TCB2_INT", // 28: TC B2 Interrupt
"USART1_RXC", // 29: USART 1 Receive Complete
"USART1_DRE", // 30: USART 1 Data Register Empty
"USART1_TXC", // 31: USART 1 Transmit Complete
"PORTF_PORT", // 32: Interrupt PORT F
"NVMCTRL_EEREADY/NVMCTRL_FLREADY/NVMCTRL_NVMREADY", // 33: NVM EEPROM Ready/NVM Flash Ready/NVM Ready
"USART2_RXC", // 34: USART 2 Receive Complete
"USART2_DRE", // 35: USART 2 Data Register Empty
"USART2_TXC", // 36: USART 2 Transmit Complete
};
const char * const vtab_avr64ea48[vts_avr64ea48] = { // AVR64EA48
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"RTC_CNT", // 4: RTC Counter Interrupt
"RTC_PIT", // 5: RTC Periodic Interrupt Timer
"CCL_CCL", // 6: Configurable Custom Logic
"PORTA_PORT", // 7: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 8: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 9: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 10: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 11: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 12: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 13: TC B0 Interrupt
"TCB1_INT", // 14: TC B1 Interrupt
"TWI0_TWIS", // 15: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 16: 2-Wire Interface 0 Controller
"SPI0_INT", // 17: SPI 0 Interrupt
"USART0_RXC", // 18: USART 0 Receive Complete
"USART0_DRE", // 19: USART 0 Data Register Empty
"USART0_TXC", // 20: USART 0 Transmit Complete
"PORTD_PORT", // 21: Interrupt PORT D
"AC0_AC", // 22: AC0 AC Interrupt
"ADC0_ERROR", // 23: ADC 0 Error
"ADC0_RESRDY", // 24: ADC 0 Result Ready
"ADC0_SAMPRDY", // 25: ADC 0 Sample Ready
"AC1_AC", // 26: AC1 AC Interrupt
"PORTC_PORT", // 27: Interrupt PORT C
"TCB2_INT", // 28: TC B2 Interrupt
"USART1_RXC", // 29: USART 1 Receive Complete
"USART1_DRE", // 30: USART 1 Data Register Empty
"USART1_TXC", // 31: USART 1 Transmit Complete
"PORTF_PORT", // 32: Interrupt PORT F
"NVMCTRL_EEREADY/NVMCTRL_FLREADY/NVMCTRL_NVMREADY", // 33: NVM EEPROM Ready/NVM Flash Ready/NVM Ready
"USART2_RXC", // 34: USART 2 Receive Complete
"USART2_DRE", // 35: USART 2 Data Register Empty
"USART2_TXC", // 36: USART 2 Transmit Complete
"TCB3_INT", // 37: TC B3 Interrupt
"TCA1_LUNF/TCA1_OVF", // 38: TC A1 Low Underflow/TC A1 Overflow
"TCA1_HUNF", // 39: TC A1 High Underflow
"TCA1_CMP0/TCA1_LCMP0", // 40: TC A1 Compare 0/TC A1 Low Compare 0
"TCA1_CMP1/TCA1_LCMP1", // 41: TC A1 Compare 1/TC A1 Low Compare 1
"TCA1_CMP2/TCA1_LCMP2", // 42: TC A1 Compare 2/TC A1 Low Compare 2
"PORTE_PORT", // 43: Interrupt PORT E
"PORTB_PORT", // 44: Interrupt PORT B
};
const char * const vtab_avr128da28[vts_avr128da28] = { // AVR128DA28, AVR64DA28, AVR32DA28
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 7: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 8: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 9: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 10: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 11: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 12: TC B0 Interrupt
"TCB1_INT", // 13: TC B1 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"TWI0_TWIS", // 16: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 17: 2-Wire Interface 0 Controller
"SPI0_INT", // 18: SPI 0 Interrupt
"USART0_RXC", // 19: USART 0 Receive Complete
"USART0_DRE", // 20: USART 0 Data Register Empty
"USART0_TXC", // 21: USART 0 Transmit Complete
"PORTD_PORT", // 22: Interrupt PORT D
"AC0_AC", // 23: AC0 AC Interrupt
"ADC0_RESRDY", // 24: ADC 0 Result Ready
"ADC0_WCMP", // 25: ADC 0 Window Comparator
"ZCD0_ZCD", // 26: Zero Cross Detect 0
"PTC_PTC", // 27: PTC Interrupt
"AC1_AC", // 28: AC1 AC Interrupt
"PORTC_PORT", // 29: Interrupt PORT C
"TCB2_INT", // 30: TC B2 Interrupt
"USART1_RXC", // 31: USART 1 Receive Complete
"USART1_DRE", // 32: USART 1 Data Register Empty
"USART1_TXC", // 33: USART 1 Transmit Complete
"PORTF_PORT", // 34: Interrupt PORT F
"NVMCTRL_EE", // 35: NVM EEPROM
"SPI1_INT", // 36: SPI 1 Interrupt
"USART2_RXC", // 37: USART 2 Receive Complete
"USART2_DRE", // 38: USART 2 Data Register Empty
"USART2_TXC", // 39: USART 2 Transmit Complete
"AC2_AC", // 40: AC2 AC Interrupt
};
const char * const vtab_avr128db28[vts_avr128db28] = { // AVR128DB28, AVR64DB28, AVR32DB28
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"MVIO_MVIO", // 4: Multi-Voltage I/O
"RTC_CNT", // 5: RTC Counter Interrupt
"RTC_PIT", // 6: RTC Periodic Interrupt Timer
"CCL_CCL", // 7: Configurable Custom Logic
"PORTA_PORT", // 8: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 9: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 10: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 11: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 12: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 13: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 14: TC B0 Interrupt
"TCB1_INT", // 15: TC B1 Interrupt
"TCD0_OVF", // 16: TC D0 Overflow
"TCD0_TRIG", // 17: TC D0 Trigger
"TWI0_TWIS", // 18: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 19: 2-Wire Interface 0 Controller
"SPI0_INT", // 20: SPI 0 Interrupt
"USART0_RXC", // 21: USART 0 Receive Complete
"USART0_DRE", // 22: USART 0 Data Register Empty
"USART0_TXC", // 23: USART 0 Transmit Complete
"PORTD_PORT", // 24: Interrupt PORT D
"AC0_AC", // 25: AC0 AC Interrupt
"ADC0_RESRDY", // 26: ADC 0 Result Ready
"ADC0_WCMP", // 27: ADC 0 Window Comparator
"ZCD0_ZCD", // 28: Zero Cross Detect 0
"AC1_AC", // 29: AC1 AC Interrupt
"PORTC_PORT", // 30: Interrupt PORT C
"TCB2_INT", // 31: TC B2 Interrupt
"USART1_RXC", // 32: USART 1 Receive Complete
"USART1_DRE", // 33: USART 1 Data Register Empty
"USART1_TXC", // 34: USART 1 Transmit Complete
"PORTF_PORT", // 35: Interrupt PORT F
"NVMCTRL_EE", // 36: NVM EEPROM
"SPI1_INT", // 37: SPI 1 Interrupt
"USART2_RXC", // 38: USART 2 Receive Complete
"USART2_DRE", // 39: USART 2 Data Register Empty
"USART2_TXC", // 40: USART 2 Transmit Complete
"AC2_AC", // 41: AC2 AC Interrupt
};
const char * const vtab_avr128da32[vts_avr128da32] = { // AVR128DA32, AVR64DA32, AVR32DA32
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 7: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 8: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 9: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 10: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 11: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 12: TC B0 Interrupt
"TCB1_INT", // 13: TC B1 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"TWI0_TWIS", // 16: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 17: 2-Wire Interface 0 Controller
"SPI0_INT", // 18: SPI 0 Interrupt
"USART0_RXC", // 19: USART 0 Receive Complete
"USART0_DRE", // 20: USART 0 Data Register Empty
"USART0_TXC", // 21: USART 0 Transmit Complete
"PORTD_PORT", // 22: Interrupt PORT D
"AC0_AC", // 23: AC0 AC Interrupt
"ADC0_RESRDY", // 24: ADC 0 Result Ready
"ADC0_WCMP", // 25: ADC 0 Window Comparator
"ZCD0_ZCD", // 26: Zero Cross Detect 0
"PTC_PTC", // 27: PTC Interrupt
"AC1_AC", // 28: AC1 AC Interrupt
"PORTC_PORT", // 29: Interrupt PORT C
"TCB2_INT", // 30: TC B2 Interrupt
"USART1_RXC", // 31: USART 1 Receive Complete
"USART1_DRE", // 32: USART 1 Data Register Empty
"USART1_TXC", // 33: USART 1 Transmit Complete
"PORTF_PORT", // 34: Interrupt PORT F
"NVMCTRL_EE", // 35: NVM EEPROM
"SPI1_INT", // 36: SPI 1 Interrupt
"USART2_RXC", // 37: USART 2 Receive Complete
"USART2_DRE", // 38: USART 2 Data Register Empty
"USART2_TXC", // 39: USART 2 Transmit Complete
"AC2_AC", // 40: AC2 AC Interrupt
"UNUSED", // 41: not implemented on this device
"TWI1_TWIS", // 42: 2-Wire Interface 1 Periphery
"TWI1_TWIM", // 43: 2-Wire Interface 1 Controller
};
const char * const vtab_avr128db32[vts_avr128db32] = { // AVR128DB32, AVR64DB32, AVR32DB32
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"MVIO_MVIO", // 4: Multi-Voltage I/O
"RTC_CNT", // 5: RTC Counter Interrupt
"RTC_PIT", // 6: RTC Periodic Interrupt Timer
"CCL_CCL", // 7: Configurable Custom Logic
"PORTA_PORT", // 8: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 9: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 10: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 11: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 12: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 13: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 14: TC B0 Interrupt
"TCB1_INT", // 15: TC B1 Interrupt
"TCD0_OVF", // 16: TC D0 Overflow
"TCD0_TRIG", // 17: TC D0 Trigger
"TWI0_TWIS", // 18: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 19: 2-Wire Interface 0 Controller
"SPI0_INT", // 20: SPI 0 Interrupt
"USART0_RXC", // 21: USART 0 Receive Complete
"USART0_DRE", // 22: USART 0 Data Register Empty
"USART0_TXC", // 23: USART 0 Transmit Complete
"PORTD_PORT", // 24: Interrupt PORT D
"AC0_AC", // 25: AC0 AC Interrupt
"ADC0_RESRDY", // 26: ADC 0 Result Ready
"ADC0_WCMP", // 27: ADC 0 Window Comparator
"ZCD0_ZCD", // 28: Zero Cross Detect 0
"AC1_AC", // 29: AC1 AC Interrupt
"PORTC_PORT", // 30: Interrupt PORT C
"TCB2_INT", // 31: TC B2 Interrupt
"USART1_RXC", // 32: USART 1 Receive Complete
"USART1_DRE", // 33: USART 1 Data Register Empty
"USART1_TXC", // 34: USART 1 Transmit Complete
"PORTF_PORT", // 35: Interrupt PORT F
"NVMCTRL_EE", // 36: NVM EEPROM
"SPI1_INT", // 37: SPI 1 Interrupt
"USART2_RXC", // 38: USART 2 Receive Complete
"USART2_DRE", // 39: USART 2 Data Register Empty
"USART2_TXC", // 40: USART 2 Transmit Complete
"AC2_AC", // 41: AC2 AC Interrupt
"TWI1_TWIS", // 42: 2-Wire Interface 1 Periphery
"TWI1_TWIM", // 43: 2-Wire Interface 1 Controller
};
const char * const vtab_avr128da48[vts_avr128da48] = { // AVR128DA48, AVR64DA48, AVR32DA48
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 7: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 8: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 9: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 10: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 11: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 12: TC B0 Interrupt
"TCB1_INT", // 13: TC B1 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"TWI0_TWIS", // 16: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 17: 2-Wire Interface 0 Controller
"SPI0_INT", // 18: SPI 0 Interrupt
"USART0_RXC", // 19: USART 0 Receive Complete
"USART0_DRE", // 20: USART 0 Data Register Empty
"USART0_TXC", // 21: USART 0 Transmit Complete
"PORTD_PORT", // 22: Interrupt PORT D
"AC0_AC", // 23: AC0 AC Interrupt
"ADC0_RESRDY", // 24: ADC 0 Result Ready
"ADC0_WCMP", // 25: ADC 0 Window Comparator
"ZCD0_ZCD", // 26: Zero Cross Detect 0
"PTC_PTC", // 27: PTC Interrupt
"AC1_AC", // 28: AC1 AC Interrupt
"PORTC_PORT", // 29: Interrupt PORT C
"TCB2_INT", // 30: TC B2 Interrupt
"USART1_RXC", // 31: USART 1 Receive Complete
"USART1_DRE", // 32: USART 1 Data Register Empty
"USART1_TXC", // 33: USART 1 Transmit Complete
"PORTF_PORT", // 34: Interrupt PORT F
"NVMCTRL_EE", // 35: NVM EEPROM
"SPI1_INT", // 36: SPI 1 Interrupt
"USART2_RXC", // 37: USART 2 Receive Complete
"USART2_DRE", // 38: USART 2 Data Register Empty
"USART2_TXC", // 39: USART 2 Transmit Complete
"AC2_AC", // 40: AC2 AC Interrupt
"TCB3_INT", // 41: TC B3 Interrupt
"TWI1_TWIS", // 42: 2-Wire Interface 1 Periphery
"TWI1_TWIM", // 43: 2-Wire Interface 1 Controller
"PORTB_PORT", // 44: Interrupt PORT B
"PORTE_PORT", // 45: Interrupt PORT E
"TCA1_LUNF/TCA1_OVF", // 46: TC A1 Low Underflow/TC A1 Overflow
"TCA1_HUNF", // 47: TC A1 High Underflow
"TCA1_CMP0/TCA1_LCMP0", // 48: TC A1 Compare 0/TC A1 Low Compare 0
"TCA1_CMP1/TCA1_LCMP1", // 49: TC A1 Compare 1/TC A1 Low Compare 1
"TCA1_CMP2/TCA1_LCMP2", // 50: TC A1 Compare 2/TC A1 Low Compare 2
"ZCD1_ZCD", // 51: Zero Cross Detect 1
"USART3_RXC", // 52: USART 3 Receive Complete
"USART3_DRE", // 53: USART 3 Data Register Empty
"USART3_TXC", // 54: USART 3 Transmit Complete
"USART4_RXC", // 55: USART 4 Receive Complete
"USART4_DRE", // 56: USART 4 Data Register Empty
"USART4_TXC", // 57: USART 4 Transmit Complete
};
const char * const vtab_avr128db48[vts_avr128db48] = { // AVR128DB48, AVR64DB48, AVR32DB48
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"MVIO_MVIO", // 4: Multi-Voltage I/O
"RTC_CNT", // 5: RTC Counter Interrupt
"RTC_PIT", // 6: RTC Periodic Interrupt Timer
"CCL_CCL", // 7: Configurable Custom Logic
"PORTA_PORT", // 8: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 9: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 10: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 11: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 12: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 13: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 14: TC B0 Interrupt
"TCB1_INT", // 15: TC B1 Interrupt
"TCD0_OVF", // 16: TC D0 Overflow
"TCD0_TRIG", // 17: TC D0 Trigger
"TWI0_TWIS", // 18: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 19: 2-Wire Interface 0 Controller
"SPI0_INT", // 20: SPI 0 Interrupt
"USART0_RXC", // 21: USART 0 Receive Complete
"USART0_DRE", // 22: USART 0 Data Register Empty
"USART0_TXC", // 23: USART 0 Transmit Complete
"PORTD_PORT", // 24: Interrupt PORT D
"AC0_AC", // 25: AC0 AC Interrupt
"ADC0_RESRDY", // 26: ADC 0 Result Ready
"ADC0_WCMP", // 27: ADC 0 Window Comparator
"ZCD0_ZCD", // 28: Zero Cross Detect 0
"AC1_AC", // 29: AC1 AC Interrupt
"PORTC_PORT", // 30: Interrupt PORT C
"TCB2_INT", // 31: TC B2 Interrupt
"USART1_RXC", // 32: USART 1 Receive Complete
"USART1_DRE", // 33: USART 1 Data Register Empty
"USART1_TXC", // 34: USART 1 Transmit Complete
"PORTF_PORT", // 35: Interrupt PORT F
"NVMCTRL_EE", // 36: NVM EEPROM
"SPI1_INT", // 37: SPI 1 Interrupt
"USART2_RXC", // 38: USART 2 Receive Complete
"USART2_DRE", // 39: USART 2 Data Register Empty
"USART2_TXC", // 40: USART 2 Transmit Complete
"AC2_AC", // 41: AC2 AC Interrupt
"TWI1_TWIS", // 42: 2-Wire Interface 1 Periphery
"TWI1_TWIM", // 43: 2-Wire Interface 1 Controller
"TCB3_INT", // 44: TC B3 Interrupt
"PORTB_PORT", // 45: Interrupt PORT B
"PORTE_PORT", // 46: Interrupt PORT E
"TCA1_LUNF/TCA1_OVF", // 47: TC A1 Low Underflow/TC A1 Overflow
"TCA1_HUNF", // 48: TC A1 High Underflow
"TCA1_CMP0/TCA1_LCMP0", // 49: TC A1 Compare 0/TC A1 Low Compare 0
"TCA1_CMP1/TCA1_LCMP1", // 50: TC A1 Compare 1/TC A1 Low Compare 1
"TCA1_CMP2/TCA1_LCMP2", // 51: TC A1 Compare 2/TC A1 Low Compare 2
"ZCD1_ZCD", // 52: Zero Cross Detect 1
"USART3_RXC", // 53: USART 3 Receive Complete
"USART3_DRE", // 54: USART 3 Data Register Empty
"USART3_TXC", // 55: USART 3 Transmit Complete
"USART4_RXC", // 56: USART 4 Receive Complete
"USART4_DRE", // 57: USART 4 Data Register Empty
"USART4_TXC", // 58: USART 4 Transmit Complete
"UNUSED", // 59: not implemented on this device
"ZCD2_ZCD", // 60: Zero Cross Detect 2
};
const char * const vtab_avr128da64[vts_avr128da64] = { // AVR128DA64, AVR64DA64
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"RTC_CNT", // 3: RTC Counter Interrupt
"RTC_PIT", // 4: RTC Periodic Interrupt Timer
"CCL_CCL", // 5: Configurable Custom Logic
"PORTA_PORT", // 6: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 7: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 8: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 9: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 10: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 11: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 12: TC B0 Interrupt
"TCB1_INT", // 13: TC B1 Interrupt
"TCD0_OVF", // 14: TC D0 Overflow
"TCD0_TRIG", // 15: TC D0 Trigger
"TWI0_TWIS", // 16: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 17: 2-Wire Interface 0 Controller
"SPI0_INT", // 18: SPI 0 Interrupt
"USART0_RXC", // 19: USART 0 Receive Complete
"USART0_DRE", // 20: USART 0 Data Register Empty
"USART0_TXC", // 21: USART 0 Transmit Complete
"PORTD_PORT", // 22: Interrupt PORT D
"AC0_AC", // 23: AC0 AC Interrupt
"ADC0_RESRDY", // 24: ADC 0 Result Ready
"ADC0_WCMP", // 25: ADC 0 Window Comparator
"ZCD0_ZCD", // 26: Zero Cross Detect 0
"PTC_PTC", // 27: PTC Interrupt
"AC1_AC", // 28: AC1 AC Interrupt
"PORTC_PORT", // 29: Interrupt PORT C
"TCB2_INT", // 30: TC B2 Interrupt
"USART1_RXC", // 31: USART 1 Receive Complete
"USART1_DRE", // 32: USART 1 Data Register Empty
"USART1_TXC", // 33: USART 1 Transmit Complete
"PORTF_PORT", // 34: Interrupt PORT F
"NVMCTRL_EE", // 35: NVM EEPROM
"SPI1_INT", // 36: SPI 1 Interrupt
"USART2_RXC", // 37: USART 2 Receive Complete
"USART2_DRE", // 38: USART 2 Data Register Empty
"USART2_TXC", // 39: USART 2 Transmit Complete
"AC2_AC", // 40: AC2 AC Interrupt
"TCB3_INT", // 41: TC B3 Interrupt
"TWI1_TWIS", // 42: 2-Wire Interface 1 Periphery
"TWI1_TWIM", // 43: 2-Wire Interface 1 Controller
"PORTB_PORT", // 44: Interrupt PORT B
"PORTE_PORT", // 45: Interrupt PORT E
"TCA1_LUNF/TCA1_OVF", // 46: TC A1 Low Underflow/TC A1 Overflow
"TCA1_HUNF", // 47: TC A1 High Underflow
"TCA1_CMP0/TCA1_LCMP0", // 48: TC A1 Compare 0/TC A1 Low Compare 0
"TCA1_CMP1/TCA1_LCMP1", // 49: TC A1 Compare 1/TC A1 Low Compare 1
"TCA1_CMP2/TCA1_LCMP2", // 50: TC A1 Compare 2/TC A1 Low Compare 2
"ZCD1_ZCD", // 51: Zero Cross Detect 1
"USART3_RXC", // 52: USART 3 Receive Complete
"USART3_DRE", // 53: USART 3 Data Register Empty
"USART3_TXC", // 54: USART 3 Transmit Complete
"USART4_RXC", // 55: USART 4 Receive Complete
"USART4_DRE", // 56: USART 4 Data Register Empty
"USART4_TXC", // 57: USART 4 Transmit Complete
"PORTG_PORT", // 58: Interrupt PORT G
"ZCD2_ZCD", // 59: Zero Cross Detect 2
"TCB4_INT", // 60: TC B4 Interrupt
"USART5_RXC", // 61: USART 5 Receive Complete
"USART5_DRE", // 62: USART 5 Data Register Empty
"USART5_TXC", // 63: USART 5 Transmit Complete
};
const char * const vtab_avr128db64[vts_avr128db64] = { // AVR128DB64, AVR64DB64
"RESET", // 0: Reset (various reasons)
"CRCSCAN_NMI", // 1: CRCSCAN Non-maskable Interrupt
"BOD_VLM", // 2: Brown-out Detector Voltage Level Monitor
"CLKCTRL_CFD", // 3: Clock Failure Detection
"MVIO_MVIO", // 4: Multi-Voltage I/O
"RTC_CNT", // 5: RTC Counter Interrupt
"RTC_PIT", // 6: RTC Periodic Interrupt Timer
"CCL_CCL", // 7: Configurable Custom Logic
"PORTA_PORT", // 8: Interrupt PORT A
"TCA0_LUNF/TCA0_OVF", // 9: TC A0 Low Underflow/TC A0 Overflow
"TCA0_HUNF", // 10: TC A0 High Underflow
"TCA0_CMP0/TCA0_LCMP0", // 11: TC A0 Compare 0/TC A0 Low Compare 0
"TCA0_CMP1/TCA0_LCMP1", // 12: TC A0 Compare 1/TC A0 Low Compare 1
"TCA0_CMP2/TCA0_LCMP2", // 13: TC A0 Compare 2/TC A0 Low Compare 2
"TCB0_INT", // 14: TC B0 Interrupt
"TCB1_INT", // 15: TC B1 Interrupt
"TCD0_OVF", // 16: TC D0 Overflow
"TCD0_TRIG", // 17: TC D0 Trigger
"TWI0_TWIS", // 18: 2-Wire Interface 0 Periphery
"TWI0_TWIM", // 19: 2-Wire Interface 0 Controller
"SPI0_INT", // 20: SPI 0 Interrupt
"USART0_RXC", // 21: USART 0 Receive Complete
"USART0_DRE", // 22: USART 0 Data Register Empty
"USART0_TXC", // 23: USART 0 Transmit Complete
"PORTD_PORT", // 24: Interrupt PORT D
"AC0_AC", // 25: AC0 AC Interrupt
"ADC0_RESRDY", // 26: ADC 0 Result Ready
"ADC0_WCMP", // 27: ADC 0 Window Comparator
"ZCD0_ZCD", // 28: Zero Cross Detect 0
"AC1_AC", // 29: AC1 AC Interrupt
"PORTC_PORT", // 30: Interrupt PORT C
"TCB2_INT", // 31: TC B2 Interrupt
"USART1_RXC", // 32: USART 1 Receive Complete
"USART1_DRE", // 33: USART 1 Data Register Empty
"USART1_TXC", // 34: USART 1 Transmit Complete
"PORTF_PORT", // 35: Interrupt PORT F
"NVMCTRL_EE", // 36: NVM EEPROM
"SPI1_INT", // 37: SPI 1 Interrupt
"USART2_RXC", // 38: USART 2 Receive Complete
"USART2_DRE", // 39: USART 2 Data Register Empty
"USART2_TXC", // 40: USART 2 Transmit Complete
"AC2_AC", // 41: AC2 AC Interrupt
"TWI1_TWIS", // 42: 2-Wire Interface 1 Periphery
"TWI1_TWIM", // 43: 2-Wire Interface 1 Controller
"TCB3_INT", // 44: TC B3 Interrupt
"PORTB_PORT", // 45: Interrupt PORT B
"PORTE_PORT", // 46: Interrupt PORT E
"TCA1_LUNF/TCA1_OVF", // 47: TC A1 Low Underflow/TC A1 Overflow
"TCA1_HUNF", // 48: TC A1 High Underflow
"TCA1_CMP0/TCA1_LCMP0", // 49: TC A1 Compare 0/TC A1 Low Compare 0
"TCA1_CMP1/TCA1_LCMP1", // 50: TC A1 Compare 1/TC A1 Low Compare 1
"TCA1_CMP2/TCA1_LCMP2", // 51: TC A1 Compare 2/TC A1 Low Compare 2
"ZCD1_ZCD", // 52: Zero Cross Detect 1
"USART3_RXC", // 53: USART 3 Receive Complete
"USART3_DRE", // 54: USART 3 Data Register Empty
"USART3_TXC", // 55: USART 3 Transmit Complete
"USART4_RXC", // 56: USART 4 Receive Complete
"USART4_DRE", // 57: USART 4 Data Register Empty
"USART4_TXC", // 58: USART 4 Transmit Complete
"PORTG_PORT", // 59: Interrupt PORT G
"ZCD2_ZCD", // 60: Zero Cross Detect 2
"TCB4_INT", // 61: TC B4 Interrupt
"USART5_RXC", // 62: USART 5 Receive Complete
"USART5_DRE", // 63: USART 5 Data Register Empty
"USART5_TXC", // 64: USART 5 Transmit Complete
};