Routers need buffers to store and forward packets, especially when there is network congestion. With current memory technology, neither the SRAM nor the DRAM alone is suitable for high-speed Internet routers which require both large capacity and fast access time. Some previous work has been done to combine the two technologies together and make a hybrid memory system [1]. In this paper<sup>1</sup>, we propose another hybrid memory system based on the interleaved DRAM memories. We devise an efficient memory management algorithm to provide hard performance guarantees to the memory system. The main contribution of this architecture is that it can scale to a very large capacity with interleaved DRAM while only employing necessary SRAM of the sa...
Summarization: Two of the main bottlenecks when designing a network embedded system are very often t...
In order to support the enormous growth of the Internet, innovative research in every router subsyst...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
This paper addresses the design of high-performance buffers for high-end Internet routers. The buffe...
As internet routers scale to support next-generation networks, their memory subsystems must also sca...
With the constantly increasing Internet traffic, buffers are becoming major bottlenecks for today's ...
Abstract — In this paper we address the design of a packet buffer for future high-speed routers that...
We address the design of high-speed packet buffers for Internet routers. We use a general DRAM/SRAM ...
We address the design of a packet buffer for future high-speed routers that support line rates as hi...
With the constantly increasing Internet traffic, buffers are becoming major bottlenecks for today's ...
In this paper, we address the design of a future high-speed router that supports line rates as high ...
High-speed routers rely on well-designed packet buffers that support multiple queues, large capacity...
ABSTRACT: All packet switches contain packet buffers to hold packets during times of congestion. Hig...
High-speed routers rely on well-designed packet buffers that support multiple queuing, large capacit...
Modern switches and routers often use dynamic RAM (DRAM) in order to provide large buffer storage sp...
Summarization: Two of the main bottlenecks when designing a network embedded system are very often t...
In order to support the enormous growth of the Internet, innovative research in every router subsyst...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...
This paper addresses the design of high-performance buffers for high-end Internet routers. The buffe...
As internet routers scale to support next-generation networks, their memory subsystems must also sca...
With the constantly increasing Internet traffic, buffers are becoming major bottlenecks for today's ...
Abstract — In this paper we address the design of a packet buffer for future high-speed routers that...
We address the design of high-speed packet buffers for Internet routers. We use a general DRAM/SRAM ...
We address the design of a packet buffer for future high-speed routers that support line rates as hi...
With the constantly increasing Internet traffic, buffers are becoming major bottlenecks for today's ...
In this paper, we address the design of a future high-speed router that supports line rates as high ...
High-speed routers rely on well-designed packet buffers that support multiple queues, large capacity...
ABSTRACT: All packet switches contain packet buffers to hold packets during times of congestion. Hig...
High-speed routers rely on well-designed packet buffers that support multiple queuing, large capacit...
Modern switches and routers often use dynamic RAM (DRAM) in order to provide large buffer storage sp...
Summarization: Two of the main bottlenecks when designing a network embedded system are very often t...
In order to support the enormous growth of the Internet, innovative research in every router subsyst...
Achieving the main memory (DRAM) required bandwidth at acceptable power levels for current and futur...