cvavr_features

Embedded tools that make the difference™

CodeVisionAVR V2 Standard Features

Application that runs under Windows® 2000, XP, Vista and Windows 7, 32bit and 64bit

Easy to use Integrated Development Environment and ANSI C compatible Compiler

Editor with auto indentation, syntax highlighting for both C and AVR assembler, function parameters and structure/union members autocomplete

Supported data types: bit, bool, char, int, short, long, float

Fast floating point library with hardware multiplier and enhanced core instructions support for all the new ATmega chips

AVR specific extensions for:

Accessing the EEPROM & FLASH memory areas
Bit level access to I/O registers
Interrupt support
Support for placing bit variables in the General Purpose I/O Registers (GPIOR) available in the new chips (ATtiny2313, ATmega48/88/168, ATmega165/169/325/3250/329/3290/645/6450/649/6490, ATmega1280/1281/2560/2561/640, ATmega406 and others)

Compiler optimizations:

Peephole optimizer
Advanced variables to register allocator, allows very efficient use of the AVR architecture
Common Block Subroutine Packing (what our competition calls “Code Compressor”), replaces repetitive code sequences with calls to subroutines. This optimizer is available as Standard in CodeVisionAVR, at no additional costs, not like in our competitor’s products.
Common sub-expression elimination
Loop optimization
Branch optimization
Subroutine call optimization
Cross-jumping optimization
Constant folding
Constant literal strings merging
Store-copy optimization
Dead code removing optimization
4 memory models: TINY (8 bit data pointers for chips with up to 256 bytes of RAM), SMALL (16 bit data pointers for chips with more than 256 bytes of RAM), MEDIUM (for chips with 128k of FLASH) and LARGE (for chips with 256k or more FLASH). The MEDIUM and LARGE memory models allow full FLASH addressing for chips like ATmega128, ATmega1280, ATmega2560, etc, the compiler handling the RAMPZ register totally transparently for the programmer. This feature is available as Standard in CodeVisionAVR, at no additional costs, not like in our competitor’s products.
User selectable optimization for code Size or Speed

Possibility to insert inline assembler code directly in the C source file

VERY EFFICIENT USE OF RAM: Constant character strings are stored only in FLASH memory and aren't copied to RAM and accessed from there, like in other compilers for the AVR

C Source level debugging, with COFF symbol file generation, allows variable watching (including structures and unions) and the use of the Terminal I/O in Atmel’s AVR Studio Debugger

Fully compatible with Atmel’s In-Circuit Emulators: AVR JTAG-ICE, AVR Dragon, etc.

Chips supported by CodeVisionAVR Standard:

ATtiny5, ATtiny10 (reduced core)
ATtiny13, ATtiny13A
ATtiny167, ATtiny87
ATtiny22
ATtiny2313
ATtiny24, ATtiny44, ATtiny84
ATtiny25, ATtiny45, ATtiny85
ATtiny26, ATtiny46, ATtiny86, ATtiny166
ATtiny261, ATtiny461, ATtiny861
ATtiny43U
ATtiny48, ATtiny88
AT90S2313
AT90S2323, AT90S2343
AT90S2333, AT90S4433
AT90S4414, AT90S8515
AT90S4434, AT90S8535
AT90S8534
AT90CAN32, AT90CAN64, AT90CAN128
AT90PWM2, AT90PWM2B, AT90PWM3, AT90PWM3B, AT90PWM216, AT90PWM316
AT90USB1286, AT90USB1287, AT90USB646, AT90USB647, AT90USB162, AT90USB82
ATmega103
ATmega128, ATmega1280, ATmega1281, ATmega1284P
ATmega1284P
ATmega16
ATmega16HVA, ATmega 8HVA
ATmega16HVB, ATmega32HVB
ATmega16M1, ATmega32M1, ATmega64M1
ATmega16U4, ATmega32U4
ATmega161
ATmega162
ATmega163
ATmega164, ATmega164P
ATmega165
ATmega169
ATmega2560, ATmega2561
ATmega32
ATmega32C1, ATmega64C1
ATmega32U6
ATmega323
ATmega324, ATmega324P
ATmega325, ATmega325P, ATmega3250, ATmega3250P
ATmega329, ATmega329P, ATmega3290, ATmega3290P
ATmega406
ATmega48, ATmega48P, ATmega88, ATmega88P, ATmega168, ATmega168P, ATmega328P
ATmega603
ATmega64
ATmega640
ATmega644, ATmega644P
ATmega645, ATmega6450
ATmega649, ATmega6490
ATmega8
ATmega8515
ATmega8535
ATxmega128A1, ATxmega192A1, ATxmega256A1, ATxmega384A1, ATxmega64A1
ATxmega128A3, ATxmega192A3, ATxmega256A3, ATxmega64A3
ATxmega16A4, ATxmega32A4, ATxmega64A4, ATxmega128A4
FPSLIC AT94K05, AT94K10, AT94K20, AT94K40
AT43USB355
AT76C711
AT86RF401
ATA6285, ATA6286, ATA6289

Supplementary libraries for:

Alphanumeric LCD modules for up to 4x40 characters
Philips I²C Bus
National Semiconductor LM75 Temperature Sensor
Maxim/Dallas Semiconductor DS1621 Thermometer/Thermostat
Philips PCF8563 and PCF8583 Real Time Clocks
Maxim/Dallas Semiconductor DS1302 and DS1307 Real Time Clocks
Maxim/Dallas Semiconductor 1 Wire protocol
Maxim/Dallas Semiconductor DS1820/DS18B20/DS1822 1 Wire Temperature Sensors
Maxim/Dallas Semiconductor DS2430/DS2433 1 Wire EEPROMs
SPI
MMC/SD/SD HC FLASH Memory Card drivers and FAT12, FAT16, FAT32 access libraries
Power management
Delays
BCD and Gray code conversion

Built-in CodeWizardAVR Automatic Program Generator, allows you to write in a matter of minutes all the code needed for implementing the following functions:

External memory access setup
Chip reset source identification
Input/Output Port initialization
External Interrupts initialization
Timers/Counters initialization
Watchdog Timer initialization
UART initialization and interrupt driven buffered serial communication with the following parameters: 7N2, 7E1, 7O1, 8N1, 8N2, 8E1 and 8O1
Analog Comparator initialization
ADC initialization
SPI Interface initialization
CAN Interface initialization
Two Wire Interface initialization
I²C Bus, LM75 Temperature Sensor, DS1621 Thermometer/Thermostat, PCF8563, PCF8583, DS1302 and DS1307 Real Time Clocks initialization
1 Wire Bus and DS1820/DS1822 Temperature Sensors initialization
LCD module initialization
USB controller for the AT90USB646, AT90USB647, AT90USB1286 and AT90USB1287 chips

Built-in Serial Communication Terminal for debugging RS232, RS422, RS485

Built-in In-System AVR Chip Programmer, compatible with the Atmel STK500, STK501, STK502, STK600, AVRISP (serial), AVRISP MkII (USB), AVR Dragon, JTAGICE MkII, Atmel AVR910 application note, Kanda Systems STK200+ and STK300 development boards, Vogel Elektronic VTEC-ISP, Dontronics DT006, Tietomyrsky EXB2313, 4Ahead AVR Board 1and Futurlec JR-AVR AT90S2313 and AT90S8535 boards, features automatic programming after successful compilation. Supported chips:

ATtiny5, ATtiny10
ATtiny13/13A
ATtiny167/87
ATtiny22
ATtiny2313
ATtiny24/44/84
ATtiny25/45/85
ATtiny26/46/86/166
ATtiny261/461/861
ATtiny43U
ATtiny48/88
AT90S2313
AT90S2323/2343
AT90S2333/4433
AT90S4414/8515
AT90S4434/8535
AT90CAN32/64/128
AT90PWM2/3 (B) /216/316
AT90USB1286/1287/646/647/162
ATmega603/103
ATmega64/128
ATmega1280/1281/1284P
ATmega16
ATmega16M1/32M1/64M1
ATmega16U4/32U4
ATmega161
ATmega162
ATmega163
ATmega164, ATmega164P
ATmega165
ATmega169
ATmega2560/2561
ATmega32
ATmega32C1/64C1
ATmega32U6
ATmega323
ATmega324, ATmega324P
ATmega325/325P/3250/3250P
ATmega329/329P/3290/3290P
ATmega48/88/168, ATmega48P/88P/168P/328P
ATmega640
ATmega644, ATmega644P
ATmega645/6450
ATmega8
ATmega8515
ATmega8535
ATxmega128A1, ATxmega192A1, ATxmega256A1, ATxmega64A1
ATxmega128A3, ATxmega192A3, ATxmega256A3, ATxmega64A3
ATxmega16A4, ATxmega32A4, ATxmega64A4, ATxmega128A4
AT86RF401
ATA6286, ATA6285, ATA6289

For In-System programming of the other AVR chips (AT90S1200, ATtiny12, ATtiny15L) please use our Universal Programming software ChipBlasterAVR