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Rapid Estimation of Power Consumption for Hybrid FPGAs

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Rapid Estimation of Power Consumption for Hybrid FPGAs Chun Hok Ho1, Philip Leong2, Wayne Luk1, Steve Wilton3 1 Department of Computing, Imperial College London – PowerPoint PPT presentation

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Title: Rapid Estimation of Power Consumption for Hybrid FPGAs


1
Rapid Estimation of Power Consumption for Hybrid
FPGAs
  • Chun Hok Ho1, Philip Leong2, Wayne Luk1, Steve
    Wilton3
  • 1 Department of Computing, Imperial College
    London
  • 2 Department of Computer Science and Engineering,
    Chinese University of Hong Kong
  • 3 Department of Electrical and Computer
    Engineering, University of British Columbia

9 September 2008
2
Overview
  • 1. Motivation
  • 2. Contributions
  • 3. Related Work
  • 4. Rapid Power Estimation Flow
  • 5. Technology Mapper
  • 6. Evaluation
  • 7. Future work Conclusion

3
Motivation
  • For a new hybrid FPGA architecture
  • How do we assess power dissipation rapidly?
  • How do we map application into such architecture
    effectively?

4
Contributions
  • High level power estimation flow
  • Estimate the power using various vendor toolchain
    and technique
  • Hybrid FPGA technology mapper
  • Produce netlist/bitstream based on dataflow graph
    (DFG)

5
Related work Hybrid FPGA architecture 1
D9, M4, R3, F3, 2 add, 2 mul best density
over benchmarks
1 C. Ho et. al , Domain-Specific Hybrid FPGA
Architecture and Floating Point Applications,
FPL 2007
6
Related work Virtual Embedded Blocks 1
  • Dummy blocks used to model coarse-grained
    blocks area and delay
  • Timing analyzer can be used to determine
    hybrids performance (including fine-to-coarse
    routing and delays)

1 C. Ho et. al, Virtual Embedded Blocks A
Methodology for Evaluating Embedded Elements in
FPGAs , FCCM 2006
7
Power estimation flow
  • Different tools chain involved
  • VEB modelling flow
  • FPGA power spreadsheet model
  • ASIC power compiler flow
  • Limitation
  • Dynamic power consumption only (power loss due
    to switching activity)
  • Constant activity rate is assumed
  • Core only no I/O power is assessed
  • First order estimation
  • Accurate simulation based model is required

8
Power estimation flow
  • Pall Total power dissipations
  • Pfgu power dissipated in fine-grained unit
    (FGU)
  • Pcgu power dissipated in coarse-grained unit
    (CGU)
  • Pr power dissipated in routing between FGU and
    CGU

9
Power estimation flow (Pfgu)
  • Synthesis the circuit with VEB flow
  • Measure the power of the circuit with spreadsheet
    approach (P)
  • Constant activity rate of 12.5 applied
  • Measure the power of the VEB with spreadsheet
    approach (Pveb)
  • Pfgu P - Pveb

10
Power estimation flow (Pcgu)
  • Synthesis the coarse-grained unit with ASIC flow
  • Configure the ASIC netlist with bitstream
  • Apply constant activity rate on all the nets
  • Estimate the dynamic power with power compiler
    tool

11
Power estimation flow (Pr)
  • Pr can be modeled by providing suitable output
    loading in estimating Pcgu
  • Output loading can be calibrated by referring
    existing embedded block
  • Embedded multiplier blocks in Virtex II is used
    in calibration.

12
Power estimation flow (Pr)
  • Measure the power of multiplier in FPGA using
    spreadsheet (Pem)
  • Implement a multiplier in ASIC flow
  • Measure the power of ASIC multiplier (Pam)
  • Adjust loading capacitance (CL)such that Pam
    Pem
  • Apply CL in estimating Pcgu

13
Technology mapper
  • A tool for producing netlist/bitstream from high
    level description
  • Reuse existing C-to-gate compiler
  • CHiMPS 1
  • Trident 2
  • fly 3
  • Only backend is different technology mapper

1 A. Putnam, et. al, CHiMPS A C-Level
Compilation Flow for Hybrid CPU-FPGA
Architectures, FPL 2008 2 J. Tripp, et. al,
Trident An FPGA Compiler Framework for
Floating-Point Algorithms, FPL 2005 3 C. Ho,
et. al, Fly - A Modifiable Hardware Compiler,
FPL 2002
14
Technology mapper
15
Technology mapper
  • Greedy algorithm
  • Not optimal but effective in most cases
  • Pack as much operations in a single
    coarse-grained unit as possible
  • No suitable block use soft core
  • Coarse-grained units use up use soft core

16
Mapping example
17
Mapping example
  • fadd tmp1, a, b
  • fadd tmp2, c, d

18
Mapping example
  • fmul tmp3, tmp1, tmp2

19
Mapping example
  • fsqrt tmp4, tmp3
  • No square root dedicated block, use fine-grained
    unit

20
Mapping example
  • fmul z, tmp4, g
  • Instantiate another coarse-grained unit and
    connect altogether

21
Evaluation
  • How effective of the technology mapper?
  • Compare with optimal mapping
  • How much power/energy can be reduced by
    introducing coarse-grained unit?
  • Compare with existing FPGA devices

22
Evaluation
  • 8 benchmark circuits
  • DSP computation kernels e.g. bfly
  • Linear algebra e.g. mm3
  • Complete application e.g. bgm
  • Synthetic benchmark e.g. syn2
  • Circuits are mapped to hybrid FPGA using
    technology mapper
  • Synthesized to Xilinx Virtex II devices for
    comparison

23
EvaluationTechnology mapper
24
EvaluationPower reduction
syn7 is implemented on XC2V8000-5
25
EvaluationEnergy reduction
Energy reduced by 14 times on average
26
Future work
  • Integration of technology mapper into existing
    compiler
  • Trident, fly
  • Simulation based power estimation flow for more
    accurate results
  • Power estimation comparison with HHVPR 1 flow
  • Static power consumption?

1 N. Choy, et. al, Activity-Based Power
Estimation and Characterization of DSP and
Multiplier Blocks in FPGAs, FPT 2006
27
Conclusion
  • Rapid power estimation flow on hybrid FPGA
  • VEB flow, FPGA power spreadsheet, ASIC power
    compiler
  • Technology mapper for hybrid FPGA
  • Target different coarse-grained units
  • DFG input to cope with existing compiler
  • Produce netlist and bitstream
  • Assess hybrid FPGA power consumption
  • Power reduced by 4 times
  • Energy reduced by 14 times
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