eSi-RISC

eSi-RISC
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
Registers
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

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:

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

  1. Electronics Weekly, 17 November 2009
  2. EE Times, 17 November 2009
  3. Electronics Weekly, 2013
  4. Design & Reuse, 2011
  5. EnSilica, 2009
  6. Electronics Weekly, 2010,
  7. Cambridge Network 2013
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