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Dynamic scheduling

Dynamic scheduling. Kosarev Nikolay MIPT Apr, 2010. Agenda. In-order execution Out-of-order execution. Tomasulo’s algorithm Implementation in hardware Demo Hardware speculation Demo. In-order execution. Data hazards - RAW , WAW . No WAR. Pipeline. DIV R1 = R2, R3

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Dynamic scheduling

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  1. Dynamic scheduling Kosarev Nikolay MIPT Apr, 2010

  2. Agenda • In-order execution • Out-of-order execution. • Tomasulo’s algorithm • Implementation in hardware • Demo • Hardware speculation • Demo

  3. In-order execution Data hazards - RAW, WAW. No WAR. Pipeline DIV R1 = R2, R3 ADD R1 = R2, R4 SUB R6 = R1, R5 (but code has no sense) DIV R1 = R2, R3 ADD R9 = R1, R4 SUB R8 = R4, R5

  4. Out-of-order execution Split ID into 2 stages: Issue - IS Decode, check for structural hazards Read operands - RO Wait until no data hazards, read operands Pipeline Out-of-order execution implies out-of-order completion (WB) Hazards – RAW, WAW, WAR DIV R0 = R2, R4 ADD R6 = R0, R8 SUB R8 = R10, R14 MUL R6 = R10, R8

  5. Tomasulo’s algorithm How are data hazards avoided? RAW – wait for availability of operands WAR, WAW – register renaming(переименование регистров) DIV R0 = R2, R4 ADD A = R0, R8 ADD R9 = A, R1 SUB B = R10, R14 MUL R6 = R10, B DIV R0 = R2, R4 ADD R6 = R0, R8 ADD R9 = R6, R1 SUB R8 = R10, R14 MUL R6 = R10, R8

  6. Implementation in HW

  7. Demo LD F6 = R2, 2 LD F2 = R3, 4 MUL F0 = F2, F4 SUB F8 = F2, F6 DIV F10 = F0, F6 ADD F6 = F8, F2 Tomasulo's algorithm for dynamic scheduling

  8. Hardware speculation • Based on 3 key ideas: • Dynamic branch prediction • Speculative execution • Dynamic scheduling • Extra stage: instruction commit • New buffer: ROB (reorder buffer) Pipeline

  9. Hardware speculation

  10. Demo Reorder buffer

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