Cyclops is a new architecture for high performance parallel computers being developed at the IBM T. J. Watson Research Center. The basic cell of this architecture is a single-chip SMP system with multiple threads of execution, embedded memory, and integrated communications hardware. Massive intra-chip parallelism is used to tolerate memory and functional unit latencies. Large systems with thousands of chips can be built by replicating this basic cell in a regular pattern. In this paper we describe the Cyclops architecture and evaluate two of its new hardware features: memory hierarchy with flexible cache organization and fast barrier hardware. Our experiments with the STREAM benchmark show that a particular design can achieve a sustainable ...
How to develop efficient and scalable parallel applications is the key challenge for emerging many-c...
Power consumption, heat dissipation and other physical limitations are pushing the microprocessor in...
Developing parallel applications that can harness and efficiently use future many-core architectures...
Cyclops is a new architecture for high performance par-allel computers being developed at the IBM T....
Niemann J-C, Puttmann C, Porrmann M, Rückert U. Resource efficiency of the GigaNetIC chip multiproce...
A trend of emerging large-scale multi-core chip design is to employ multithreaded architectures- suc...
The IBM Cyclops-64 (C64) chip employs a multi-threaded architecture that integrates a large number o...
We are now entering the multi-core era, many multi-core chips are designed and manufactured by vario...
This paper presents a feasibility study on the use of an embedded multi-core system-on-a-chip (SoC) ...
Multithreaded architectures have the potential of tolerating large memory and functional unit latenc...
This paper presents a joint study of application and architecture to improve the performance and sca...
The Cell Broadband Engine processor is a powerful processor capable of over 220 GFLOPS. It is highly...
Tiled architectures have emerged as a solution to translate an increasing number of transistors into...
drodenas,xavim,eduard,jesus¡ In this paper, we present two approaches to improve the execution of Op...
In this paper, we present two approaches to improve the execution of OpenMP applications on the IBM ...
How to develop efficient and scalable parallel applications is the key challenge for emerging many-c...
Power consumption, heat dissipation and other physical limitations are pushing the microprocessor in...
Developing parallel applications that can harness and efficiently use future many-core architectures...
Cyclops is a new architecture for high performance par-allel computers being developed at the IBM T....
Niemann J-C, Puttmann C, Porrmann M, Rückert U. Resource efficiency of the GigaNetIC chip multiproce...
A trend of emerging large-scale multi-core chip design is to employ multithreaded architectures- suc...
The IBM Cyclops-64 (C64) chip employs a multi-threaded architecture that integrates a large number o...
We are now entering the multi-core era, many multi-core chips are designed and manufactured by vario...
This paper presents a feasibility study on the use of an embedded multi-core system-on-a-chip (SoC) ...
Multithreaded architectures have the potential of tolerating large memory and functional unit latenc...
This paper presents a joint study of application and architecture to improve the performance and sca...
The Cell Broadband Engine processor is a powerful processor capable of over 220 GFLOPS. It is highly...
Tiled architectures have emerged as a solution to translate an increasing number of transistors into...
drodenas,xavim,eduard,jesus¡ In this paper, we present two approaches to improve the execution of Op...
In this paper, we present two approaches to improve the execution of OpenMP applications on the IBM ...
How to develop efficient and scalable parallel applications is the key challenge for emerging many-c...
Power consumption, heat dissipation and other physical limitations are pushing the microprocessor in...
Developing parallel applications that can harness and efficiently use future many-core architectures...