Embedded tools that
make the difference™
Supported data types: bit, bool, char, int, short, long, 64-bit long, float
Fast floating point library with hardware multiplier and enhanced core instructions support for all the new ATmega chips
AVR specific extensions for:
Transparent, easy accessing of the EEPROM & FLASH memory areas, without the need of special functions like in other AVR compilers
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 literal 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) in Atmel Studio 6.1 and AVR Studio 4.19 debuggers
Fully compatible with Atmel’s In-Circuit Emulators: AVR JTAG-ICE, AVR Dragon, etc.
Application that runs under Windows® XP, Vista, Windows 7, Windows 8 and Windows 10, 32-bit and 64-bit
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
Besides it’s own IDE, CodeVisionAVR can be also used as an Extension integrated in Atmel Studio 6.2 and 7.
Integrated Development Environment for the 8-bit Atmel AVR and XMEGA Microcontrollers