Jungeblut T, Sievers G, Porrmann M, Rückert U. Design Space Exploration for Memory Subsystems of VLIW Architectures. In: 5th IEEE International Conference on Networking, Architecture, and Storage. 2010: 377-385.In this work we present a design space exploration of the memory subsystem of our configurable CoreVA VLIW architecture. The development of resource efficient processor architectures is based on a two-stage tool flow using a high-level processor specification as a reference. We evaluate several memory configurations like one memory port or two memory ports, as well as different write-miss-allocation modes. Applications ranging from LTE protocol stack over baseband processing up to cryptography and multimedia are evaluated in terms o...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Aim of this paper is to propose a high-level power exploration framework based on an instruction-le...
In this paper, we propose a system-level design methodology for the efficient exploration of the arc...
Jungeblut T, Dreesen R, Porrmann M, Rückert U, Hachmann U. Design Space Exploration for Resource Eff...
Hübener B, Sievers G, Jungeblut T, Porrmann M, Rückert U. CoreVA: A Configurable Resource-efficient ...
Architectural resources and program recurrences are themain limitations to the amount of Instruction...
In programmable embedded systems, the memory subsys-tem represents a major cost, performance and pow...
The design of high-performance application-specific multi-core processor systems still is a time con...
The use of Application Specific Instruction-set Proces-sors (ASIP) in embedded systems is a solution...
Abstract — Architectural resources and program recurrences are the main limitations to the amount of...
Today's SoCs are complex designs with multiple embedded processors, memory subsystems, and applicati...
Very Long Instruction Word (VLIW) architectures can enhance performance by exploiting fine-grained i...
Institute for Computing Systems ArchitectureInstruction-level parallelism (ILP) is a set of hardware...
Many high performance applications run well below the peak arithmetic performance of the underlying...
The growing interest that multimedia processing has experimented during the last decade is motivatin...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Aim of this paper is to propose a high-level power exploration framework based on an instruction-le...
In this paper, we propose a system-level design methodology for the efficient exploration of the arc...
Jungeblut T, Dreesen R, Porrmann M, Rückert U, Hachmann U. Design Space Exploration for Resource Eff...
Hübener B, Sievers G, Jungeblut T, Porrmann M, Rückert U. CoreVA: A Configurable Resource-efficient ...
Architectural resources and program recurrences are themain limitations to the amount of Instruction...
In programmable embedded systems, the memory subsys-tem represents a major cost, performance and pow...
The design of high-performance application-specific multi-core processor systems still is a time con...
The use of Application Specific Instruction-set Proces-sors (ASIP) in embedded systems is a solution...
Abstract — Architectural resources and program recurrences are the main limitations to the amount of...
Today's SoCs are complex designs with multiple embedded processors, memory subsystems, and applicati...
Very Long Instruction Word (VLIW) architectures can enhance performance by exploiting fine-grained i...
Institute for Computing Systems ArchitectureInstruction-level parallelism (ILP) is a set of hardware...
Many high performance applications run well below the peak arithmetic performance of the underlying...
The growing interest that multimedia processing has experimented during the last decade is motivatin...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Aim of this paper is to propose a high-level power exploration framework based on an instruction-le...
In this paper, we propose a system-level design methodology for the efficient exploration of the arc...