Components/IP/NanoBlaze

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Component

NanoBlaze.png

The NanoBlaze is a grow-up of the Xilinx PicoBlaze microcontroller, hence the name. Various sizes can be defined with the help of generic parameters:

  • registerBitNb defines the data bit width
  • programCounterBitNb allows to cope with different program lengths
  • stackPointerBitNb adapts to various nesting depths of the subroutines
  • registerBitNb defines the data bit width
  • registerAddressBitNb allows to choose the number of internal registers
  • scratchPadAddressBitNb allows to manage the size of the scratchpad
  • addressBitNb defines the size of the I/O space

With scratchPadAddressBitNb = 0, the scratchpad is not implemented.

The NanoBlaze's instruction ROM is designed to be mapped as a Block RAM.

Contrarily to the PicoBlaze, the NanoBlaze performs every instruction within a single clock cycle. Due to the mapping of the instruction ROM into a Block RAM, the instructions are provided delayed by one clock period compared to the program counter. With this, when a branch condition is met, the processor will anyway receive the instruction of the next memory location. Obviously, this instruction will not be executed, but this means that every successful branch requires two clock cycles.

Assembler

It has an assembler written in PERL which runs on any operating system. With this, the assembler can easily be integrated in the Mentor HDL Designer environment.

The VHDL processor code includes a disassembler process which writes the current instruction in the form of a string. This string can be displayed in the simulator for debugging purpose. The corresponding VHDL code is commented out for synthesis via the pragma translate_off clause.

Instruction set

The following table shows the instruction set for an 8 bit version of the processor:

instruction 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 function
AND sX, kk 001010 sX address kk value AND constant kk pattern to register sX
AND sX, sY 001011 sX address sY address AND register sY pattern to register sX
ADD sX, kk 011000 sX address kk value add constant kk to register sX
ADD sX, sY 011001 sX address sY address add register sY to register sX
ADDCY sX, kk 011010 sX address kk value add constant kk and carry bit to register sX
ADDCY sX, sY 011011 sX address sY address add register sY and carry bit to register sX

Sources

This IP is found in the HEVs EDA Repository: svn: https://repos.hevs.ch/svn/eda/

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