T.-F. Tsuei, A. N. Packer, and K.-T. Ko. Database buffer size investigation for OLTP workloads. In Proc. 1997.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....of TPC C, where two client machines simulate thousands of remote terminal emulators (RTEs) generating requests with no think time between requests. The resulting load presented to the database server strongly resembles the full configuration with RTEs, and thus stresses the server in similar ways [107]. We measured the performance of this OLTP workload running on a tuned prototype version of Informix Online Dynamic Server [49] a shared memory database. ODS is a parallel shared memory database server. It uses a single multi threaded process; the NT threads exploit processor affinity to ensure ....

....Figure 3 1. Here the client machines simulate thousands of RTEs, generating requests with zero think time. The load presented to the database server by the two tier configu 38 ration strongly resembles that of the three tier configuration with RTEs, and thus stresses the server in similar ways [107]. Since we have modified the TPC C benchmark, and since our benchmarks have not been audited, as per TPC C rules, we cannot explicitly report official tpmC ratings. Instead, we report relative transaction throughput. 3.3. Experimental Results: CPI We begin by presenting the CPI for the ....

T. Tsuei, A. Packer, and K. Ko. "Database buffer size investigation for OLTP workloads," Proc. of ACM-SIGMOD `97, pages 112-122, May 1997.

....of TPC C, where two client machines simulate thousands of remote terminal emulators (RTEs) generating requests with no think time between requests. The resulting load presented to the database server strongly resembles the full configuration with RTEs, and thus stresses the server in similar ways [28]. The performance metric for TPC C is the number of NewOrder transactions per minute (tpmC) Since we have modified the TPC C benchmark, and since our benchmarks Characteristic Base System Processor speed 200 MHz Number of processors 4 L1 caches 8 KB instr. 8 KB data L2 cache 1 MB (unified) ....

....to the one used in this study. Another fertile research area is to study the transaction throughput and I O rates as a function of database buffer size (i.e. memory capacity) including an examination of support for very large memory configurations. Some initial work has been done in this area [28] [6] and more investigation is warranted. Finally, we plan to investigate the importance of system configuration in determining observed performance. Many researchers scale back problem sizes or underconfigure the hardware in their systems when measuring database workloads, violating the TPC ....

T. Tsuei, et al. "Database buffer size investigation for OLTP workloads." In Proc. of the ACM-SIGMOD Conference on Management of Data,. pages 112-122, May 1997.

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T.-F. Tsuei, A. N. Packer, and K.-T. Ko. Database buffer size investigation for OLTP workloads. In Proc. 1997.

No context found.

T.-F. Tsuei, A. N. Packer, and K.-T. Ko. Database buffer size investigation for OLTP workloads. In Proc. 1997.

No context found.

T. Tsuei, et al. "Database buffer size investigation for OLTP workloads." In Proc. of the ACM-SIGMOD Conference on Management of Data,. pages 112-122, May 1997.

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