“用户:Hengfeng-Wei”的版本间的差异

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Publications: +RVSI@SRDS'2017
Profile: updated
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Hengfeng Wei (魏恒峰)
 
Hengfeng Wei (魏恒峰)
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 +
  Research Assistant (助理研究员)
  
 
   Institute of Computer Software
 
   Institute of Computer Software
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   Department of Computer Science and Technology
 
   Department of Computer Science and Technology
 
   Nanjing University
 
   Nanjing University
   Addr: 163 Xianlin Road, Nanjing 210046, P. R. China
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   Addr: 163 Xianlin Road, Nanjing 210023, P. R. China
  
 
   Office: 302
 
   Office: 302
 
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  Mailbox: H016
[mailto:hfwei@nju.edu.cn Email me: hfwei@nju.edu.cn]
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  [mailto:hfwei@nju.edu.cn Email me: hfwei@nju.edu.cn]
  
 
== Researches ==
 
== Researches ==

2017年6月28日 (三) 14:52的版本



Profile

Hengfeng Wei (魏恒峰)

 Research Assistant (助理研究员)
 Institute of Computer Software
 State Key Laboratory for Novel Software Technology
 Department of Computer Science and Technology
 Nanjing University
 Addr: 163 Xianlin Road, Nanjing 210023, P. R. China
 Office: 302
 Mailbox: H016
 Email me: hfwei@nju.edu.cn

Researches

I am interested in Distributed Computing Theory and Formal Methods.

Publications


CSS for Jupiter

 Work In Progress.

This work is inspired by the work on "Specification and Complexity of Collaborative Text Editing" published in PODC'2017 by Hagit Attiya et al.

More details and comments are coming when the work is ready.


Parameterized and Runtime-tunable Snapshot Isolation in Distributed Transactional Key-value Stores

 Hengfeng Wei, Yu Huang, Jian Lu.
 Parameterized and Runtime-tunable Snapshot Isolation in Distributed Transactional Key-value Stores.
 In Proc. of the 36th International Conference on Reliable Distributed Systems (SRDS), Sep., 2017.
 [Paper:RVSI (not camera-ready)]

The formal specification of RVSI (Relaxed Version Snapshot Isolation) in this work is partly inspired by the work on "Relaxed Currency Serializability for Middle-Tier Caching and Replication" published in SIGMOD'2006 by Philip A.Bernstein et al.

It is the first time we use Aliyun in our experiments. This will be the normal case in the future.


Probabilistically-Atomic 2-Atomicity: Enabling Almost Strong Consistency in Distributed Storage Systems

 Hengfeng Wei, Yu Huang, Jian Lu. 
 Probabilistically-Atomic 2-Atomicity: Enabling Almost Strong Consistency in Distributed Storage Systems. 
 In IEEE Trans. Comput., 66(3):502--514, doi:10.1109/TC.2016.2601322, March 2017.
 [abstract@IEEE]  [Paper: PA2AM@TC'2017] [Paper: PA2AM@arXiv (not up-to-date)]

Last night (2016-10-13), I reread the paper "On Interprocess Communication --- Part II: Algorithms" of Leslie Lamport, and found that in Proposition 5, Lamport has proved that in the single-writer model a regular register is atomic if two successive reads that overlap the same write cannot obtain the new then the old value. The phenomenon that "two successive reads that overlap the same write cannot obtain the new then the old value" is exactly the old-new inversion anomaly. Therefore, Lamport has shown that a regular register is atomic if it does not allow old-new inversion anomalies. This is very similar to Theorem 1 in our paper which essentially states that the PA2AM algorithm implements a 2-atomic register and the old-new inversion anomaly is the only cause of atomicity violation.

The major difference between Proposition 5 of Lamport and Theorem 1 in our paper is that Proposition 5 is at the specification level while Theorem 1 is at the implementation level.

Combining Proposition 5 and Theorem 1, we obtain

Conjecture 1
In the single-writer model, 2-atomicity is equivalent to regularity.
Conjecture 2
In the single-write model, PA2AM implements a regular register.

Verifying Pipelined-RAM Consistency over Read/Write Traces of Data Replicas

 Hengfeng Wei, Marzio De Biasi, Yu Huang, Jiannong Cao, and Jian Lu. 
 Verifying Pipelined-RAM Consistency over Read/Write Traces of Data Replicas.
 In IEEE Trans. Parallel Distrib. Syst., 27(5):1511--1523, May 2016, doi:10.1109/TPDS.2015.2453985
 [abstract@IEEE]  [Paper: VPC@TPDS'2016] [Paper: VPC@arXiv(not up-to-date)]
 SCI: DJ5HS

In the Conclusion section, we discussed the VCC (Verifying Causal Consistency) problem and wrote: "Because Pipelined-RAM is a weakening of causal consistency, our NP-complete result also applies to the general problem of verifying causal consistency".

I am sorry to say that it is not right for us to conclude that VCC, in general, (i.e., VCC-SD in our terms) is NP-complete just because Pipelined-RAM is a weakening of causal consistency.

However, I think that VCC-SD is NP-complete and that the basic idea of the polynomial reduction used in the NP-complete proof for VPC-SD will be useful in proving the NP-completeness of VCC-SD.

The NP-completeness proof for VPC-SD (along with VPC-MD) is mainly credited to Marzio De Biasi, the second author of this paper.


Formal Specification and Runtime Detection of Temporal Properties for Asynchronous Context

 Hengfeng Wei, Yu Huang, Jiannong Cao, Xiaoxing Ma, Jian Lu. 
 Formal Specification and Runtime Detection of Temporal Properties for Asynchronous Context. 
 In Proceedings of the 10th IEEE International Conference on Pervasive Computing and Communications 
 (IEEE PerCom '12), pages 30--38, 2012.
 [abstract@IEEE]  [Paper: CTL3@PerCom'2012]
 EI: 20122315082503

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