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Sim2Imp (Simulation to Implementation) Breakout J. Wawrzynek, K. Asanovic, G. Gibeling, M. Lin, Y. Lee, N. Patil.

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Presentation on theme: "Sim2Imp (Simulation to Implementation) Breakout J. Wawrzynek, K. Asanovic, G. Gibeling, M. Lin, Y. Lee, N. Patil."— Presentation transcript:

1 Sim2Imp (Simulation to Implementation) Breakout J. Wawrzynek, K. Asanovic, G. Gibeling, M. Lin, Y. Lee, N. Patil

2 Why do this? To force honesty in emulation. Makes it more difficult (or at least possible to check) feasibility of design decisions. Pushing a design all the way through to ASIC implementation is a good way to get energy / area / performance “estimates”. Can we eliminate the verification problem inherent in the current design methodology. “Correct by Construction”

3 Redefining the Idea Simulation to implementation maybe the wrong idea: Rather we want one common system specification from which we generate multiple different implementations. Spec 2 X System Specificatio n ASIC gate synthesizable model FPGA gate synthesizable model FPGA simulation model Software simulation model

4 Old idea We’ve witnessed similar ideas in other domains. Parallel software generation. One high-level specification drives multiple different implementations on different types of machines.

5 How do we organize such a system? Building on a single architectural “template” might be too limiting. We can identify a set of “architectural” or “design patterns”. These become the organizing principles. Ex: Pipelined processors (single issue, OoO), microcoded machines, vector, VLIW,... similarly for interconnection networks: message passing, shared coherent memory,... and for memory systems: cache protocols.

6 Dealing with Complexity The combination of all possible design patterns is a LARGE space. Perhaps moving down one level of abstraction (sub-patterns) will reduce the overall complexity: Basic design patterns: pipelining, synchronization, reductions,... Each high-level design pattern has a set of “operation sematics” for describing the desired function.

7 How to Build This Need extensibility - can’t get stuck with one architecture model. We envision a set of parameterized “structure generators” for moving from a high-level specification to a variety of implementations. The parameterization captures design alternatives (i.e., cache size) and operational sematics (i.e., ISA, cache policy) Apply this idea hierarchically

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9 Finally Compiler verification problem pops up. A burden of the pattern builder is to be able to abstract back to the operational semantics - help deal with verification. Generators should also be able to make quick efficient energy models. Organizing designs so that they admit multiple implementation is a good idea even without automatic compilation. More discussions about this in a graduate seminar at Berkeley this fall.

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