The host-multi-SIMD chip multiprocessor (CMP) architecture has been proved to be an efficient architecture for high performance signal processing which explores both task level parallelism by multi-core processing and data level parallelism by SIMD processors. Different from the cache-based memory subsystem in most general purpose processors, this architecture uses on-chip scratchpad memory (SPM) as processor local data buffer and allows software to explicitly control the data movements in the memory hierarchy. This SPM-based solution is more efficient for predictable signal processing in embedded systems where data access patterns are known at design time. The predictable performance is especially important for real time signal processing....
Abstract—The host-SIMD style heterogeneous multi-processor architecture offers high computing perfor...
Chip multiprocessors — also called multi-core microprocessors or CMPs for short — are now the only w...
International audienceGeneral-purpose shared memory multicore architectures are becoming widely avai...
The host-multi-SIMD chip multiprocessor (CMP) architecture has been proved to be an efficient archit...
Embedded computational hardware has become prevalent in recent years for communications signal proce...
Modern signal processing systems require more and more processing capacity as times goes on. Previou...
Abstract — SIMD processors have made their way from supercomputers architectures through embedded re...
Due to inherent non-scalability of superscalar processors, processor manufacturers have switched to ...
Traditionally, embedded programmers have relied on using low-level mechanisms for coordinating paral...
In the last ten years, limited clock frequency scaling and increasing power density has shifted IC d...
This paper surveys the High Performance Computing Architectures. Embedded Systems Requires the combi...
Research Focus To be able to handle the rapidly increasing programming complexity of multicore proce...
grantor: University of TorontoProgrammable digital signal processors (DSPs) are microproce...
Chip multiprocessors (CMPs) aim to develop both instruction-level and thread-level parallelisms to b...
Many new embedded applications require complex computations to be performed to tight schedules, whil...
Abstract—The host-SIMD style heterogeneous multi-processor architecture offers high computing perfor...
Chip multiprocessors — also called multi-core microprocessors or CMPs for short — are now the only w...
International audienceGeneral-purpose shared memory multicore architectures are becoming widely avai...
The host-multi-SIMD chip multiprocessor (CMP) architecture has been proved to be an efficient archit...
Embedded computational hardware has become prevalent in recent years for communications signal proce...
Modern signal processing systems require more and more processing capacity as times goes on. Previou...
Abstract — SIMD processors have made their way from supercomputers architectures through embedded re...
Due to inherent non-scalability of superscalar processors, processor manufacturers have switched to ...
Traditionally, embedded programmers have relied on using low-level mechanisms for coordinating paral...
In the last ten years, limited clock frequency scaling and increasing power density has shifted IC d...
This paper surveys the High Performance Computing Architectures. Embedded Systems Requires the combi...
Research Focus To be able to handle the rapidly increasing programming complexity of multicore proce...
grantor: University of TorontoProgrammable digital signal processors (DSPs) are microproce...
Chip multiprocessors (CMPs) aim to develop both instruction-level and thread-level parallelisms to b...
Many new embedded applications require complex computations to be performed to tight schedules, whil...
Abstract—The host-SIMD style heterogeneous multi-processor architecture offers high computing perfor...
Chip multiprocessors — also called multi-core microprocessors or CMPs for short — are now the only w...
International audienceGeneral-purpose shared memory multicore architectures are becoming widely avai...