Contact Information: Contacts: Nancy B. Green The William Baldwin Group +1 650 856 6192 Nicky Douglas HI-TECH Software +61 7 3722 7777
PIC32 Compiler Offers Faster Interrupt Handling, 40% Smaller Code
Transparent Debugging of Fully Optimized Code
| Quelle: HI-TECH Software
PHOENIX, AZ--(Marketwire - July 21, 2008) - MASTERs Conference -- HI-TECH Software today
launched an "omniscient" ANSI C compiler for Microchip's PIC32 family of microcontrollers that can boost
real-time performance by 25% or more, and can provide nearly double code
density. HI-TECH C® PRO for the PIC32 MCU Family is the only PIC32
compiler that optimizes stack
and register
allocation across all code modules prior to generating the object code.
Smaller code generally executes more quickly and requires smaller, less
expensive flash memory for storage.
The HI-TECH C PRO compiler has an omniscient code generator (OCG)
that collects comprehensive data on every register, stack, pointer, object
and variable declaration across the entire program. It uses this
information to optimize register usage, stack allocations and pointers
across the whole program. It also ensures consistent variable and object
declarations between modules and deletes unused variables and functions.
HI-TECH C PRO is the only PIC32 compiler with this capability.
The majority of other PIC32 compilers are based on GCC
compilation technology which generates code one-module-at-a-time, without
comprehensive cross-module data. Without knowing how objects are used
across the whole program, it is impossible to achieve the same level of
optimization as an OCG compiler. In code density benchmarks, HI-TECH's OCG
compiler achieves code that can be as much as 40% smaller than that
generated using industry leading GCC-based PIC32 compilers. The smaller
code size can cut device costs by reducing the amount of on-chip flash
required.
Register Coverage. In addition, GCC-based PIC32 compilers have a constraint
on which registers can be used to store parameters for called functions.
Whenever a function is called from another code module, the parameters of
that function are usually stored in the registers. GCC-based PIC32
compilers typically reserve four specific registers for this purpose. If
the function has more than four parameters, the additional parameters must
be stored on and passed to the called function using the stack (in RAM) --
a cycle intensive process that degrades performance and leads to increased
RAM usage.
Interrupt-intensive code, compiled with HI-TECH's OCG-enabled compiler
typically requires 26% fewer cycles for the PIC32 to execute than code
compiled using a non-OCG compiler. By reducing the number of CPU cycles
spent moving data between the registers and stack, HI-TECH's OCG compiler
effectively gives the CPU a 26% performance boost. More importantly, called
functions frequently call other functions, which may in turn call other
functions. This is particularly true for interrupt intensive applications.
For example, if the code calls a function, which then calls a second
function, the parameters for the first function will have to be saved to
the stack to make room for the parameters for the second function. If this
second function calls a third function, the parameters for the second
function will also have to be saved to the stack to make room for the
parameters of the third function. Data will have to be shifted continuously
between the stack and the registers. The penalty for this is at least a
cycle every time data is moved to or from the stack -- or 8 cycles to move
the data for a single four-parameter function to the stack and back to the
registers.
Even if other registers are available, the GCC compiler allocates the extra
parameters to the stack once the fixed set of four registers is full. This
process wastes both cycles and RAM. It also results in code bloat due to
the extra instructions required to save function parameters to the stack.
In contrast, HI-TECH's OCG compiler has perfect knowledge of the register
usage of each function. At any point in the program, it knows which
registers are available and which registers are not available, and can
optimize register usage without any arbitrary constraints. When there are
two or three deep function calls, it allocates parameters for different
functions into non-overlapping register sets, often eliminating the need to
store parameters into memory completely. This results in better utilization
of the available registers, fewer cycles wasted moving parameters between
the stacks and the registers, and less RAM usage. It also contributes to
smaller code size by reducing or eliminating the need for code to save
registers to the stack.
Faster Interrupt Handling. Since HI-TECH C PRO knows the register usage of
every function in the entire program, including interrupts and any
functions that are called by the interrupt code, it also knows exactly
which registers need to be saved and restored for each interrupt routine.
The HI-TECH C PRO compiler saves only those registers that are necessary,
reducing the size of the interrupt context switching code, and decreasing
the number of cycles required to execute the interrupt routine.
Memory Optimization for Better Power & Performance. Since the HI-TECH C PRO
compiler knows the usage of every instance of every variable in the
program, it has the ability to optimize the allocation of every variable
between either the stack or the registers. The optimization is based on the
frequency of use of each variable. Variables that are used intensively can
be allocated permanently to registers, which have no cycle penalty at all.
All register and stack allocations are always optimized to elicit the best
overall performance for the entire program. This highly refined
optimization of memory both boosts performance and minimizes power
consumption by keeping frequently used data in locations that have the
shortest access time.
Debugging With Optimizations. Although code size and performance are
important issues, object code is useless if it can't be debugged. Turning
on compiler optimizations often results in changes to the code that can
cripple the ability to debug. The HI-TECH C PRO
compiler preserves all the relationships between the object code and the
original C-code, making the debug process as quick and simple as possible.
Compatible with MPLAB® IDE. The HI-TECH C PRO compiler is seamlessly
integrated into Microchip's MPLAB® IDE (integrated development
environment), as well as most 3rd-party development tools. HI-TECH C PRO
runs on multiple platforms including Windows (2000, XP, Vista 32/64) Linux
and Mac OS X.
HI-TECH Debugging. HI-TECH Software will offer its free Eclipse-based IDE,
HI-TIDE 3, including full project management, a flexible editor and a
fast, accurate simulator with JTAG Debug Interface, in the third quarter of
2008.
Library Code and Runtime Modules Included. HI-TECH's PRO compiler is
available with full source code to all library routines, including a
run-time start-up module that it automatically customizes for the code each
time the compiler is run. A PIC32 peripheral library, fully
source-compatible with Microchip's Peripheral Library, allows easy
configuration of and access to the PIC32's on-chip peripherals. There are
no restrictions or limitations on use of executable library code.
Pricing and Availability. HI-TECH C PRO for the PIC32 MCU Family is
available now through September 30, 2008 for the introductory price of
US$1595, after which it will sell for US$1995. It includes, free of charge,
HI-TECH Priority Access (HPA) -- 12 months access to updates and technical
support -- as well as a 30-day money back guarantee. Multi-user, and
educational user discounts are available.
Free Full-featured Evaluation. A fully functional 45-day release trial
version of HI-TECH C PRO for the PIC32 MCU Family can be downloaded, free
of charge, at HI-TECH's website http://microchip.htsoft.com.
Additional information on HI-TECH C PRO for the PIC32 MCU family is
available at http://microchip.htsoft.com/products/compilers/pic32.php.
Editors note: Illustrations are available at:
Product shot: http://microchip.htsoft.com/images/pack-pic32.jpg
Register usage without OCG:
http://microchip.htsoft.com/images/080718_traditional_parameter_register.jpg
Register usage with OCG:
http://microchip.htsoft.com/images/080718_parameter_register_PIC32_PRO.jpg
About HI-TECH Software. HI-TECH Software is a world class developer of
development tools for embedded systems, offering compilers and an Eclipse
based IDE (HI-TIDE) for 8-, 16-, and 32-bit microcontroller and DSP chip
architectures. Its products also support the entire range of Microchip
PICmicro® MCUs and DSCs. HI-TECH is the number one vendor of compilers for
Microchip Technology's PIC® MCUs, with approximately 64% market share. Its
customers include tens of thousands of embedded system developers including
General Motors, Whirlpool, Qualcomm, and John Deere.
Founded by Clyde Stubbs, in 1984 in Brisbane, Australia, HI-TECH Software
has an office in the US and an extensive network of distributors around the
globe.