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PicoBlaze & MicroBlaze

PicoBlaze & MicroBlaze. Ernest Jamro Dep. Of Electronics AGH – University of Science and Technology. MicroBlaze. 32 bit soft-proces s or 32 bit instructions 32 registers Independent data and instruction buses Different bus standards: - PLB (Processor Local Bus)

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PicoBlaze & MicroBlaze

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  1. PicoBlaze & MicroBlaze Ernest Jamro Dep. Of Electronics AGH – University of Science and Technology

  2. MicroBlaze • 32 bit soft-processor • 32 bit instructions • 32 registers • Independent data and instruction buses • Different bus standards: • - PLB (Processor Local Bus) • - AXI (Advanced eXtensible Interface) • - LMB (Local Memory Bus) • - FSL (Fast Simplex Link)

  3. MicroBlaze Block Diagram

  4. Different Bus Configurations LMB: AXI / PLB Complexity simply complex Local/glonal local global # Master 1 >=1

  5. MB bus configurations: only LMB This configuration cannot communicat with external modules, thus should not be employed

  6. LMB: Instructions, PLB:Data

  7. EDK Print Screen

  8. Instructions:LMB; Data: PLB + LMBMB employs LMB for instructions and memory accessand PLB/AXI for peripheral module access

  9. Only one PLB/AXI bus

  10. Two PLB/AXI buses Warning: plb_ddr memory cannot be written (how to initialise instruction memory)

  11. Two PLBs, single memory

  12. Without Data Cache Manual (in C program) handling of data memory transfer

  13. Example (6)The MB is booted from BRAM

  14. Fast Simplex Link (FSL) 32-bit single direction bus – one master one slave

  15. Registers • R0-R31 32x32-bit –general purpose registers R0- always equal to 0 • PC – Program counter – initial value = 0 • MSR (Machine State Register)

  16. MSR

  17. Instruction Format Typu A Instruction Typu B instruction Example: instruction ADD

  18. Example of Instructions

  19. Pipeline Architecture Delay Slot Instructions

  20. (Hard)Procesor (e.g. PowerPC in Virtex 2Pro) • Implemented directly in silicon (ASIC technology) • Employs ASIC technology (not FPGA technology) so this silicon area cannot be reused for other purposes • Parameters are defined (ASIC) and cannot be changed • Is relatively fast and consumes relatively small silicon area and power

  21. Soft-procesor (e.g. MicroBlaze) • Employs standard FPGA logic resources • thus the logic resources can be freed when not required • Parameters can be freely defined by a user • In comparison to the hard-processor is slower, consumes more silicon area and power

  22. MicroBlaze parameters • Different types of buses (PLB/AXI, LMB) • (Implement or not) cache memory, define its size • Barrel-Shifter • fast multiplier: define the bit-width of the multiplier: 32-bit, 64-bit • divider • debugger (and its parameters) • Floating-point unit (and its parameters) • MMU – Memory Management Unit

  23. EDK - Ports

  24. EDK Addresses

  25. Adding IP-Cores

  26. IP-Core Options

  27. Microprocessor Hardware Specification

  28. 8-bit soft-processor PicoBlaze • • Optimized for Xilinx Spartan-3 architecture—just 96 slices (0.3% of an • XC3S5000 device) and 0.5 to 1 block RAM • 16 byte-wide general-purpose data registers • • 1K instructions of programmable on-chip program store, automatically loaded during • FPGA configuration • • Byte-wide Arithmetic Logic Unit (ALU) with CARRY and ZERO indicator flags • • 64-byte internal scratchpad RAM • • 256 input and 256 output ports for easy expansion and enhancement • • Automatic 31-location CALL/RETURN stack • • Predictable performance, always two clock cycles per instruction, up to 200 MHz or • 100 MIPS in a Virtex-II Pro FPGA • • Fast interrupt response; worst-case 5 clock cycles • • Support in Spartan-6, and Virtex-6 FPGA architectures • • Assembler, instruction-set simulator support

  29. Block diagram

  30. Example, external multiplier

  31. PicoBlaze, in VHDL processor: kcpsm port map( address => address_signal, instruction => instruction_signal, port_id => port_id_signal, write_strobe => write_strobe_signal, out_port => out_port_signal, read_strobe => read_strobe_signal, in_port => in_port_signal, interrupt => interrupt_signal, reset => reset_signal, clk => clk_signal);

  32. PB, assembler

  33. PB, data moving

  34. MicroBlaze – cache memory • Small cache memory is much quicker than external memory • For the MB it is better to use internal BRAM memory (in the case when data moving is easily determined) than cache as BRAM as quick as cache memory but consumes less recourses

  35. cache block structureThis structure is for tutorial-pupose only (not used in real applications)

  36. Real Application

  37. The End

  38. Uproszczony przykład działania Linie adresowe: a30-a31 – ignorowane – dane są 4 bajtowe a24-a29 – linie adresowe pamięci tag i danych (instrukcji) a0-a23 – linie adresowe zapisywane w pamięci tag i wykorzystywane podczas porównywania Pamięć Tag CacheL. DanaTag Cache adr 0 0x00 0x0000 1 0x00 0x0004 2 0x00 0x0008 3 0x03 0x030C 4 0x03 0x0310 5 0x05 0x0514 6 0x06 0x0618 7 0x07 0x071C ...

  39. LMB (Local Memory Bus) Sygnały

  40. LMB (odczyt i zapis)

  41. LMB szybki odczyt

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