eSi-RISC

eSi-RISC
Registers
Designer	Ensilica
Bits	16-bit/32-bit
Introduced	2009
Design	RISC
Type	Register-Register
Encoding	Intermixed 16 and 32-bit
Branching	Compare and branch and condition code
Endianness	Big or little
Extensions	User-defined instructions
8/16/32 General Purpose, 8/16/32 Vector

eSi-RISC is a configurable CPU architecture from Ensilica. It is available in five implementations: the eSi-1600, eSi-1650, eSi-3200, eSi-3250 and eSi-3260.^[1] The eSi-1600 and eSi-1650 feature a 16-bit data-path, while the eSi-32x0s feature 32-bit data-paths. Each of these processors is licensed as soft IP cores, suitable for integrating into both ASICs and FPGAs.^[2]

Architecture

The main features of the eSi-RISC architecture are:

eSi-3250 SoC architecture

RISC-like load/store architecture.
Configurable 16 or 32-bit data-path.
Instructions are encoded in either 16 or 32-bits.
8, 16 or 32 general purpose registers.
0, 8, 16 or 32 vector registers.
0 to 8 accumulators.
Up to 32 external interrupts.
Configurable instruction set including support for integer, floating-point and fixed-point arithmetic.
SIMD operations.
Optional support for user-defined instructions, such as cryptographic acceleration .^[3]
Optional caches (Configurable size and associtivity).
Optional MMU supporting both memory protection and dynamic address translation.
AMBA AXI, AHB and APB bus interfaces.
Memory mapped I/O.
5-stage pipeline.
Hardware JTAG debug.

While there are many different 16 or 32-bit Soft microprocessor IP cores available, eSi-RISC is the only architecture licensed as an IP core that has both 16 and 32-bit implementations.

Unlike in other RISC architectures supporting both 16 and 32-bit instructions, such as ARM/Thumb or MIPS/MIPS-16, 16 and 32-bit instructions in the eSi-RISC architecture can be freely intermixed, rather than having different modes where either all 16-bit instructions or all 32-bit instructions are executed. This improves code density without compromising performance. The 16-bit instructions support two register operands in the lower 16 registers, whereas the 32-bit instructions support three register operands and access to all 32 registers.

eSi-RISC includes support for Multiprocessing. Implementations have included up to seven eSi-3250's on a single chip.^[4]

Toolchain

The eSi-RISC toolchain is based on combination of a port of the GNU toolchain and the Eclipse IDE.^[5] This includes:

GCC – C/C++ compiler.
Binutils – Assembler, linker and binary utilities.
GDB – Debugger.
Eclipse – Integrated Development Environment.

The C library is Newlib and the C++ library is Libstdc++. Ported RTOSes include MicroC/OS-II, FreeRTOS, ERIKA Enterprise^[6] and Phoenix-RTOS^[7]

References

↑ Electronics Weekly, 17 November 2009
↑ EE Times, 17 November 2009
↑ Electronics Weekly, 2013
↑ Design & Reuse, 2011
↑ EnSilica, 2009
↑ Electronics Weekly, 2010,
↑ Cambridge Network 2013

External links

EnSilica's eSi-RISC homepage

RISC-based processor architectures

Active	Altera Nios II Analog Devices Blackfin ARM Atmel AVR Atmel AVR32 DLX eSi-RISC M32R LatticeMico8 LatticeMico32 Meta MIPS OpenRISC Power ISA PowerPC RISC-V S+core ShenWei SPARC Renesas SuperH Unicore Xilinx MicroBlaze Xilinx Picoblaze XMOS XCore XS1

Historic	AMD 29000 Apollo PRISM Berkeley RISC Clipper CRISP DEC Alpha DEC Prism Intel i860 Intel i960 Motorola 88000 PA-RISC ROMP

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