Processor Microarchitecture for Implementation of Ephemeral State Processing within Network Routers

Muthukumarasamy, Muthulakshmi

01 January 2003

The evolving concept of Ephemeral State Processing (ESP) is overviewed. ESP allows development of new scalable end-to-end network user services. An evolving macro-level language is being developed to support ESP at the network node level. Three approaches for implementing ESP services at network routers can be considered. One approach is to use the existing processing capability within commercially available network routers. Another approach is to add a small scale existing ASIC based general-purpose processor to an existing network router. This thesis research concentrates on a third approach of developing a special-purpose programmable Ephemeral State Processor (ESPR) Instruction Set Architecture (ISA) and implementing microarchitecture for deployment within each ESP-capable node to implement ESP service within that node. A unique architectural characteristic of the ESPR is its scalable and temporal Ephemeral State Store (ESS) associative memory, required by the ESP service for storage/retrieval of bounded (short) lifetime ephemeral (tag, value) pairs of application data. The ESPR will be implemented to Programmable Logic Device (PLD) technology within a network node. This offers advantages of reconfigurability, in-field upgrade capability and supports the evolving growth of ESP services. Correct functional and performance operation of the presented ESPR microarchitecture is validated via Hardware Description Language (HDL) post-implementation (virtual prototype) simulation testing. Suggestions of future research related to improving the performance of the ESPR rnicroarchitecture and experimental deployment of ESP are discussed.

Ephemeral State Processing

Ephemeral State Store

Ephemeral State Processor

PLD Technology

HDL Virtual Prototyping

Electrical and Computer Engineering