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Multi-threaded%20RTOS

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Multi-threaded RTOS How Multi-threading can increase on-chip parallelism Outline Introduction Multi-threading models Architectures of multi-threaded processors ... – PowerPoint PPT presentation

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Title: Multi-threaded%20RTOS


1
Multi-threaded RTOS
  • How Multi-threading can increase on-chip
    parallelism

2
Outline
  • Introduction
  • Multi-threading models
  • Architectures of multi-threaded processors
  • Simultaneous multi-threading and multi-processors
  • Cache design
  • Examples of Multi-threaded environments
  • Conclusions

3
Introduction
  • Two forms of parallelism
  • instruction-level parallelism (ILP)
  • thread-level parallelism (TLP)
  • Both identify independent instructions that can
    execute in parallel
  • Wide-issue superscalar processors exploit ILP by
    executing multiple instructions from a single
    program in a single cycle.
  • Multiprocessors exploit TLP by executing
    different threads in parallel on different
    processors.
  • The first multi-threaded processor approaches in
    the 1970s and 1980s applied multi-threading at
    user-thread-level to solve the memory access
    latency problem.

4
Introduction
  • Motivations for multi-threaded processor
    architecture development include chip area , cost
    and complexity.
  • Simultaneous Multi-threading (SMT),
  • Single chip multiprocessing (CMP),
  • SMT VLIW architecture,
  • Multithreaded Vector (SMV) architecture
  • DSP applications inherently benefit from the
    following architectural characteristics
  • Parallelization at multiple levels of hierarchy
  • - Instruction - separate instruction memory space
  • - Data separate date memory space
  • - Thread- multiple functional units
  • - Data transfer multiple wide data buses

5
Vertical and Horizontal Waste
  • Vertical waste is introduced when the processor
    issues no instructions in a cycle
  • Horizontal waste when not all issue slots can be
    filled in a cycle.

6
Vertical and Horizontal Waste
7
Multi-threaded Models
  • Fine-Grain Multithreading
  • Only one thread issues instructions each cycle,
    but it can use the entire issue width of the
    processor.
  • SM full Simultaneous Issue
  • Single
  • Dual
  • Four
  • SM limited Connection
  • Hardware context is connected directly one of
    each type of functional units.
  • Less dynamic

8
Performance
9
SMT VLIW Architecture
10
Simultaneous Vector Multi-threaded Architecture
(SVMT)
11
SMT vs. Multiprocessing
12
Cache design
13
Examples Multi-threaded RTOS
  • Analog Devices VDK
  • uClinux
  • The RTXC Quadros RTOS
  • RTCX/ss
  • RTXC/ss
  • ThreadX

14
Conclusions
  • A simultaneous multithreaded architecture is
    superior in performance to a multiple-issue
    multiprocessor (multi-issue CMP).
  • SMT boost utilization by dynamically scheduling
    functional units among multiple threads.
  • SMT also increases hardware design flexibility.
  • Simultaneous multithreading increases the
    complexity of instruction scheduling.
  • Increased parallelism offered makes
    multi-threading ideal for DSP applications where
    each application can run as a separate thread.
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