International Journal of Advanced Networking and Applications

Open Access Open Access  Restricted Access Subscription Access

ISA-Independent Scheduling Algorithm for Buffered Crossbar Switch


Affiliations
1 Department of Computer Science, Mepco Schlenk Engineering College, Sivakasi-05, India
 

Crossbars are an emerging technology in high speed router. In buffered crossbar switch a buffer is associated with each crossbar. Due to the introduction of crossbar buffers the input and output contentions are highly eliminated. Both the input and output port work independently and so the scheduling process is highly simplified. With a speed up of 2 it has been proved that 100% throughput can be achieved. In this paper we propose a 100% throughput scheduling algorithm without speedup called ISA. In ISA the scheduling decision is purely based on the state information of the local crosspoint buffer. So it is suited for a distributed implementation and it is highly scalable. The main advantage is the crosspoint use a buffer size of 1 which minimizes the hardware cost. Simulation results show that we achieve 100% throughput without any speedup.

Keywords

Buffered Crossbar Switch, Crosspoint Buffer, Input Queued, Output Queued, Speedup, Virtual Output Queue, 100% Throughput.
User
Notifications
Font Size

Abstract Views: 108

PDF Views: 0




  • ISA-Independent Scheduling Algorithm for Buffered Crossbar Switch

Abstract Views: 108  |  PDF Views: 0

Authors

Kannan Balasubramanian
Department of Computer Science, Mepco Schlenk Engineering College, Sivakasi-05, India
C. Sindhu
Department of Computer Science, Mepco Schlenk Engineering College, Sivakasi-05, India

Abstract


Crossbars are an emerging technology in high speed router. In buffered crossbar switch a buffer is associated with each crossbar. Due to the introduction of crossbar buffers the input and output contentions are highly eliminated. Both the input and output port work independently and so the scheduling process is highly simplified. With a speed up of 2 it has been proved that 100% throughput can be achieved. In this paper we propose a 100% throughput scheduling algorithm without speedup called ISA. In ISA the scheduling decision is purely based on the state information of the local crosspoint buffer. So it is suited for a distributed implementation and it is highly scalable. The main advantage is the crosspoint use a buffer size of 1 which minimizes the hardware cost. Simulation results show that we achieve 100% throughput without any speedup.

Keywords


Buffered Crossbar Switch, Crosspoint Buffer, Input Queued, Output Queued, Speedup, Virtual Output Queue, 100% Throughput.