See this document in CiteSeerX!

Further Results in Affinity-Based Scheduling of Parallel Networking (1995)  (Make Corrections)  (3 citations)
James D. Salehi, James F. Kurose, Don Towsley



  Home/Search   Context   Related

 
View or download:
umass.edu/pub/salehi/catr2.ps.gz
umass.edu/pub/Sale95:Further.ps.Z
Cached:  PS.gz  PS  PDF   Image  Update  Help

From:  umass.edu/~salehi/home (more)
From:  umass.edu/ppuma
(Enter author homepages)

Rate this article: (best)
  Comment on this article  
(Enter summary)

Abstract: In this paper, we present further results in processor-cache affinity scheduling of parallel network protocol processing, in a setting in which protocol processing executes on the multiprocessor host concurrently with a general workload of non-protocol activity. In earlier work [31, 32] we evaluated affinity-based scheduling of receive-side protocol processing under two parallelization approaches: Locking and Independent Protocol Stacks (IPS). In this work, we i) evaluate affinity-based... (Update)

Context of citations to this paper:   More

.... receive side path, send side UDP IP FDDI processing references only read only protocol specific and stream specific data structures (see [29] for discussion) Thus, there is no need to explicitly enable parallelism through software locks (PLP) or through data structure...

.... recently become an active area of research in both academia [5, 12, 20, 21, 22, 35, 46, 47, 48, 59, 62, 63, 64, 69, 70, 71, 72, 74, 75, 76, 77, 87, 88, 89, 95, 100, 106, 107, 108, 109, 111, 112, 116, 117, 124, 125] and industry [18, 37, 42, 45, 49, 68, 90, 94, 110, 120] Many...

Cited by:   More
The Performance Impact of Scheduling for Cache Affinity.. - Salehi, Kurose, Towsley (1995)   (Correct)
Networking Support For High-Performance Servers - Nahum (1997)   (Correct)
The Effectiveness of Affinity-Based Scheduling in.. - Salehi, Kurose, Towsley (1996)   (Correct)

Similar documents (at the sentence level):
8.6%:   The Effectiveness of Affinity-Based Scheduling in Multiprocessor.. - Salehi (1996)   (Correct)

Active bibliography (related documents):   More   All
2.2:   Scheduling Parallel Networking On Shared-Memory Multiprocessors - Salehi   (Correct)
1.9:   Scheduling for Cache Affinity in Parallelized.. - Salehi, Kurose, Towsley (1994)   (Correct)
1.3:   Connection-Level Parallelism For Network Protocols On.. - Yates (1997)   (Correct)

Similar documents based on text:   More   All
0.2:   Dynamic Computation Scheduling for Load Balancing in Home-based.. - Shi, Tang (1999)   (Correct)
0.2:   Exploiting Cache Affinity in Software Cache Coherence - Li, Sevcik (1994)   (Correct)
0.1:   Intelligent Techniques for the Extraction and.. - Bergamaschi.. (1999)   (Correct)

Related documents from co-citation:   More   All
3:   The Importance of NonData Touching Processing Overheads in TCP/IP - Kay, Pasquale - 1993
3:   Locking Effects in Multiprocessor Implementation of Protocols (context) - Bjorkman, Gunningberg - 1993
3:   Network Information Center RFC (context) - Postel, Protocol - 1981

BibTeX entry:   (Update)

James Salehi, James Kurose, and Don Towsley. Further results in affinity-based scheduling of parallel networking. Technical Report UM-CS-1995-046, University of Massachusetts, Amherst, May 1995. http://citeseer.ist.psu.edu/salehi95further.html   More

@techreport{ salehi95further,
    author = "J. D. Salehi and J. F. Kurose and D. Towsley",
    title = "Further results in affinity-based scheduling of parallel networking",
    number = "UM-CS-1995-046",
    month = ",",
    year = "1995",
    url = "citeseer.ist.psu.edu/salehi95further.html" }
Citations (may not include all citations):
692   the self-similar nature of Ethernet traffic - Leland, Taqqu et al. - 1994
612   Architectural considerations for a new generation of protoco.. (context) - Clark, Tennenhouse - 1990
610   Wide area traffic: The failure of Poisson modeling - Paxson, Floyd - 1994
244   Kernel: An architecture for implementing network protocols (context) - Hutchinson, Peterson - 1991
161   Empirically-derived analytic models of wide-area TCP connect.. - Paxson - 1994
138   Packet trains: Measurements and a new model for computer net.. (context) - Jain, Routhier - 1986
126   The impact of operating system scheduling policies and synch.. (context) - Gupta, Tucker et al. - 1991
121   Using processor affinity in loop scheduling on shared-memory.. - Markatos, LeBlanc - 1994
120   The performance implications of thread management alternativ.. (context) - Anderson, Lazowska et al. - 1989
87   Increasing network throughput by integrating protocol layers - Abbott, Peterson - 1993
80   The importance of non-data touching processing overheads in .. - Kay, Pasquale - 1993
76   An empirical workload model for driving wide-area TCP/IP net.. - Danzig, Jamin et al. - 1992
75   ACM Transactions on Computer Systems (context) - O'Malley, Peterson et al. - 1992
74   The implications of cache affinity on processor scheduling f.. (context) - Vaswani, Zahorjan - 1991
61   A measurement study of diskless workstation traffic on an Et.. (context) - Gusella - 1990
58   Using processor cache affinity information in shared-memory .. (context) - Squillante, Lazowska - 1993
40   Measuring the performance of parallel message-based process .. - Schmidt, Suda - 1995
39   Network locality at the scale of processes (context) - Mogul - 1991
35   Personal communication (context) - Nowicki - 1995
34   Performance issues in parallelized network protocols - Nahum, Yates et al. - 1994
29   Transport protocol processing at Gbps rates (context) - Jain, Schwartz et al. - 1990
29   Locking effects in multiprocessor implementations of protoco.. (context) - Bjorkman, Gunningberg - 1993
25   High-speed parallel protocol implementation (context) - Giarrizzo, Kaiserswerth et al. - 1989
18   ACM Transactions on Computer Systems (context) - Thiebaut, Stone et al. - 1987
18   Measuring the impact of alternative parallel process archite.. - Schmidt, Suda - 1994
16   Parallel STREAMS: A multi-processor implementation (context) - Garg - 1990
15   Issues in implementation of cache-affinity scheduling - Devarakonda, Mukherjee - 1992
15   Pitfalls in multithreading SVR4 STREAMS and other weightless.. (context) - Saxena, Peacock et al. - 1993
14   Alternative software architectures for parallel protocol exe.. (context) - Woodside, Franks - 1993
14   Multiprocessor STREAMS for Plan - Presotto - 1993
10   A model of workloads and its use in miss-rate prediction for.. (context) - Singh, Stone et al. - 1992
7   The performance impact of scheduling for cache affinity in p.. - Salehi, Kurose et al. - 1995
7   and improvement of UDP/IP throughput for the DECstation (context) - Kay, Pasquale et al. - 1993
7   A multiprocessing approach for meeting the processing requir.. (context) - Ito, Takeuchi et al. - 1993
6   Scheduling for cache affinity in parallelized communication .. - Salehi, Kurose et al. - 1994
6   IP on the parallel protocol engine (context) - Rutsche, Kaiserswerth - 1992
6   Experiences in parallelisation of streams-based communicatio.. (context) - Heavens - 1992
5   Implementation of a parallel transport subsystem on a multip.. - Braun, Schmidt - 1993
4   ACM Transactions on Networking (context) - Kaiserswerth, protocol et al. - 1993
4   Performance analysis of MSP: Feature-rich high-speed transpo.. (context) - LaPorta, Schwartz - 1993

Documents on the same site (http://www.cs.umass.edu/~salehi/home.html):   More
Scheduling for Cache Affinity in Parallelized Communication.. - James Salehi (1994)   (Correct)
Scheduling for Cache Affinity in Parallelized.. - Salehi, Kurose, Towsley (1994)   (Correct)
The Effectiveness of Affinity-Based Scheduling in Multiprocessor.. - Salehi (1996)   (Correct)

Online articles have much greater impact   More about CiteSeer.IST   Add search form to your site   Submit documents   Feedback  

CiteSeer.IST - Copyright Penn State and NEC