Manycore processor system is becoming an attractive platform for applications seeking both high performance and high energy efficiency. However, huge communication demands among cores, large power density, and low process yield will be three significant limitations for the scalability of future manycore processors. Breaking a large chip into multiple smaller ones can alleviate the problems of power density and yield, but would worsen the problem of communication efficiency due to the limited off-chip bandwidth. In response, we propose an inter/intra-chip optical network, which will not only fulfill the intra-chip communication requirements but also address the inter-chip communication, by exploiting the advantages of optical links with high...
As semiconductor technologies continues to scale, more and more cores are being integrated on the sa...
Chip multiprocessor (CMP) is becoming an attractive platform for applications seeking both high perf...
We present a vertical integration approach for designing silicon photonic networks for communication...
As modern computing systems become increasingly complex, communication efficiency among and inside c...
Throughput, power consumption, signal integrity, pin count and routing complexity are all increasing...
There is today consensus on the fact that optical interconnects can relieve bandwidth density concer...
We present a new monolithic silicon photonics technol-ogy suited for integration with standard bulk ...
This paper presents a monolithically integrated dense WDM photonic network for manycore processors, ...
Chip I/O pins are an increasingly limited resource and significantly affect the performance, power a...
Abstract: This paper presents an overview of advances in highly-integrated photonic networks for em...
Abstract: This paper presents a monolithically integrated dense WDM photonic network for manycore pr...
Data movement has become a limiting factor in terms of performance, power consumption, and scalabili...
Photonic Networks-On-Chip have emerged as a viable solution for interconnecting multicore computer a...
Modern chips include several processors that communicate through an interconnection network, which h...
This paper presents an overview of advances in highly-integrated photonic networks for emerging man...
As semiconductor technologies continues to scale, more and more cores are being integrated on the sa...
Chip multiprocessor (CMP) is becoming an attractive platform for applications seeking both high perf...
We present a vertical integration approach for designing silicon photonic networks for communication...
As modern computing systems become increasingly complex, communication efficiency among and inside c...
Throughput, power consumption, signal integrity, pin count and routing complexity are all increasing...
There is today consensus on the fact that optical interconnects can relieve bandwidth density concer...
We present a new monolithic silicon photonics technol-ogy suited for integration with standard bulk ...
This paper presents a monolithically integrated dense WDM photonic network for manycore processors, ...
Chip I/O pins are an increasingly limited resource and significantly affect the performance, power a...
Abstract: This paper presents an overview of advances in highly-integrated photonic networks for em...
Abstract: This paper presents a monolithically integrated dense WDM photonic network for manycore pr...
Data movement has become a limiting factor in terms of performance, power consumption, and scalabili...
Photonic Networks-On-Chip have emerged as a viable solution for interconnecting multicore computer a...
Modern chips include several processors that communicate through an interconnection network, which h...
This paper presents an overview of advances in highly-integrated photonic networks for emerging man...
As semiconductor technologies continues to scale, more and more cores are being integrated on the sa...
Chip multiprocessor (CMP) is becoming an attractive platform for applications seeking both high perf...
We present a vertical integration approach for designing silicon photonic networks for communication...