Trajectory sampling for direct traffic observation
Proceedings of the conference on Applications, Technologies, Architectures, and Protocols for Computer Communication
Trajectory sampling for direct traffic observation
IEEE/ACM Transactions on Networking (TON)
Quantitative comparison between the Moore's law and the growth of BGP routing table
ICCC '02 Proceedings of the 15th international conference on Computer communication
An in-depth look at computer performance growth
ACM SIGARCH Computer Architecture News - Special issue: Workshop on architectural support for security and anti-virus (WASSA)
An ILP formulation for system-level application mapping on network processor architectures
Proceedings of the conference on Design, automation and test in Europe
ILP and heuristic techniques for system-level design on network processor architectures
ACM Transactions on Design Automation of Electronic Systems (TODAES)
Approximation algorithm for data mapping on block multi-threaded network processor architectures
Proceedings of the 44th annual Design Automation Conference
Design and analysis of a variable bit rate caching algorithm for continuous media data
Multimedia Tools and Applications
A hierarchical networking architecture based on new switching address
ICAIT '08 Proceedings of the 2008 International Conference on Advanced Infocomm Technology
Proceedings of the special interest group on management information system's 47th annual conference on Computer personnel research
Automated Detection of Load Changes in Large-Scale Networks
TMA '09 Proceedings of the First International Workshop on Traffic Monitoring and Analysis
AIMS '09 Proceedings of the 3rd International Conference on Autonomous Infrastructure, Management and Security: Scalability of Networks and Services
Distributed architecture for real-time traffic analysis
AIMS'10 Proceedings of the Mechanisms for autonomous management of networks and services, and 4th international conference on Autonomous infrastructure, management and security
Routing scalability: an operator's view
IEEE Journal on Selected Areas in Communications - Special issue title on scaling the internet routing system: an interim report
An assessment framework for identifying information technology programs
Proceedings of the 2011 conference on Information technology education
A novel control plane model of extensible routers
ICCS'06 Proceedings of the 6th international conference on Computational Science - Volume Part IV
Performance evaluation of multirate time division multiplexed wavelength routed optical networks
Computer Communications
Bottlenecks in next generation DWDM-based optical networks
Computer Communications
| Hi-index | 4.10 |
To keep pace with the Internet's growth, the maximum speed of core routers and switches must increase at the same rate. In a study conducted in 1969, the author analyzed 39 scientific computers released or planned for release from 1958 to 1972 to determine optimal computer replacement strategy (http://www.ziplink.net/lroberts/Forecast69.htm). This study looked at the trend of CPU throughput per dollar and predicted that computer performance would double every 18.6 months. Updating the study using data for 1999 PCs shows that the trend over 41 years is a doubling of computer performance every 21 months, a remarkably small correction. A similar study tracking the costs from the first ARPA packet switches in 1969 to the most modern routers and ATM switches in 1999 confirms that packet switches have followed the same trend as computers, with performance per dollar doubling every 21 months. Although the computer performance rate predicted in the updated 1969 study is similar to Moore's law, the trends are not identical. It would appear that both the performance per dollar for computers and the serial interface speed for communications are increasing at 94 percent of the yearly growth rate of semiconductor performance. We can use this information about performance and cost trends to predict the cost of computers and communications and to understand the Internet traffic growth. Keeping up with these trends will be a major engineering challenge