An Efficient Routing Mechanism in Network Simulation

Zhiyu Hao; Xiaochun Yun; Hongli Zhang

doi:10.1177/0037549708095861

An Efficient Routing Mechanism in Network Simulation

Zhiyu Hao
, Xiaochun Yun
, Hongli Zhang

CAS - Institute of Computing Technology
School of Computer Science and Technology, Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Simulation is widely recognized as an essential tool for analyzing large-scale networks. Routing is a key factor which impacts the simulation scale and efficiency. This paper presents a new approach to routing calculation, storage and lookup, named MTree_Nix routing. It maintains a variable number of spanning trees as the base routing table, and uses Nix-Vector routing to compute on demand the routing states that cannot be covered by any of the spanning trees. Theoretically, we obtain the constraint condition on the optimized trade-off between space and time in MTree_Nix routing. Integrated with the advantages of the current routing mechanisms, MTree_Nix comes to a better trade-off between the storage space for the routing tables and the CPU time for routing lookup. Experimental results show that, with a storage space of only about 1% more than Nix-Vector, MTree_Nix can reduce the simulation time to about 85% of that using Nix-Vector.

Original language	English
Pages (from-to)	511-520
Number of pages	10
Journal	Simulation
Volume	84
Issue number	10-11
DOIs	https://doi.org/10.1177/0037549708095861
State	Published - Oct 2008
Externally published	Yes

Keywords

MTree_Nix
network simulation
routing mechanism

Access to Document

10.1177/0037549708095861

Cite this

@article{816bc21c9188446ba118eb9c3c9d90f0,

title = "An Efficient Routing Mechanism in Network Simulation",

abstract = "Simulation is widely recognized as an essential tool for analyzing large-scale networks. Routing is a key factor which impacts the simulation scale and efficiency. This paper presents a new approach to routing calculation, storage and lookup, named MTree\_Nix routing. It maintains a variable number of spanning trees as the base routing table, and uses Nix-Vector routing to compute on demand the routing states that cannot be covered by any of the spanning trees. Theoretically, we obtain the constraint condition on the optimized trade-off between space and time in MTree\_Nix routing. Integrated with the advantages of the current routing mechanisms, MTree\_Nix comes to a better trade-off between the storage space for the routing tables and the CPU time for routing lookup. Experimental results show that, with a storage space of only about 1\% more than Nix-Vector, MTree\_Nix can reduce the simulation time to about 85\% of that using Nix-Vector.",

keywords = "MTree\_Nix, network simulation, routing mechanism",

author = "Zhiyu Hao and Xiaochun Yun and Hongli Zhang",

year = "2008",

month = oct,

doi = "10.1177/0037549708095861",

language = "英语",

volume = "84",

pages = "511--520",

journal = "Simulation",

issn = "0037-5497",

publisher = "SAGE Publications Ltd",

number = "10-11",

}

TY - JOUR

T1 - An Efficient Routing Mechanism in Network Simulation

AU - Hao, Zhiyu

AU - Yun, Xiaochun

AU - Zhang, Hongli

PY - 2008/10

Y1 - 2008/10

N2 - Simulation is widely recognized as an essential tool for analyzing large-scale networks. Routing is a key factor which impacts the simulation scale and efficiency. This paper presents a new approach to routing calculation, storage and lookup, named MTree_Nix routing. It maintains a variable number of spanning trees as the base routing table, and uses Nix-Vector routing to compute on demand the routing states that cannot be covered by any of the spanning trees. Theoretically, we obtain the constraint condition on the optimized trade-off between space and time in MTree_Nix routing. Integrated with the advantages of the current routing mechanisms, MTree_Nix comes to a better trade-off between the storage space for the routing tables and the CPU time for routing lookup. Experimental results show that, with a storage space of only about 1% more than Nix-Vector, MTree_Nix can reduce the simulation time to about 85% of that using Nix-Vector.

AB - Simulation is widely recognized as an essential tool for analyzing large-scale networks. Routing is a key factor which impacts the simulation scale and efficiency. This paper presents a new approach to routing calculation, storage and lookup, named MTree_Nix routing. It maintains a variable number of spanning trees as the base routing table, and uses Nix-Vector routing to compute on demand the routing states that cannot be covered by any of the spanning trees. Theoretically, we obtain the constraint condition on the optimized trade-off between space and time in MTree_Nix routing. Integrated with the advantages of the current routing mechanisms, MTree_Nix comes to a better trade-off between the storage space for the routing tables and the CPU time for routing lookup. Experimental results show that, with a storage space of only about 1% more than Nix-Vector, MTree_Nix can reduce the simulation time to about 85% of that using Nix-Vector.

KW - MTree_Nix

KW - network simulation

KW - routing mechanism

UR - https://www.scopus.com/pages/publications/56549122146

U2 - 10.1177/0037549708095861

DO - 10.1177/0037549708095861

M3 - 文章

AN - SCOPUS:56549122146

SN - 0037-5497

VL - 84

SP - 511

EP - 520

JO - Simulation

JF - Simulation

IS - 10-11

ER -

An Efficient Routing Mechanism in Network Simulation

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this