The LEON4 is a synthesizable VHDL model of a 32-bit processor compliant with the SPARC V8 architecture. The model is highly configurable, and particularly suitable for system-on-chip (SOC) designs. LEON4 is also available under a low-cost commercial license, allowing it to be used in any commercial application to a fraction of the cost of comparable IP cores.
The LEON4 is interfaced using the AMBA 2.0 AHB bus and supports the IP core plug&play method provided in the Cobham Gaisler IP library (GRLIB). The processor can be efficiently implemented on FPGA and ASIC technologies and uses standard synchronous memory cells for caches and register file. The processor supports the MUL, MAC and DIV instructions and an optional IEEE-754 floating-point unit (FPU) and Memory Management Unit (MMU).
The LEON4 cache system consists of separate I/D multi-set Level-1 (L1) caches with up to 4 ways per cache, and an optional Level-2 (L2) cache for increased performance in data intensive applications.
The LEON4 pipeline uses 64-bit internal load/store data paths, with an AMBA AHB interface of either 64- or 128-bit. Branch prediction, 1-cycle load latency and a 32x32 multiplier results in a performance of 1.7 DMIPS/MHz, or 2.1 CoreMark/MHz.
The LEON4 processor has the following features:
The LEON4 processor is fully parameterizable through the use of VHDL generics, and does not rely on any global configuration package. It is thus possible to instantiate several processor cores in the same design with different configurations.
The LEON4 processor can be synthesized with common synthesis tools such as Synplify, Synopsys DC and Cadence RC. The core area (pipeline, cache controllers and mul/div units) requires only 30 kgates or 4000 LUT, depending on the configuration. The LEON4 processor can also be synthesized with Mentor Precision, Xilinx XST and Altera Quartus, either through scripts or by using the graphical interfaces of the tools.
Being SPARC V8 conformant, compilers and kernels for SPARC V8 can be used with LEON4 (kernels will need a LEON BSP). To simplify software development, Cobham Gaisler provides several toolchains and operating systems.
Debugging is generally done using the gdb debugger, and a graphical front-end such as DDD or Eclipse. It is possible to perform source-level symbolic debugging, either on a simulator or using real target hardware. Cobham Gaisler provides TSIM, a high-performance LEON4 simulator which seamlessly can be attached to gdb and emulate a LEON4 system at more than 30 MIPS. The GRMON monitor interfaces to the LEON4 on-chip debug support unit (DSU), implementing a large range of debug functions as well as a GDB gateway. For multi-processor and/or advanced SOC designs, the GRSIM multi-core simulator is available for early software development.