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1.发明授权Methods, apparatuses and computer program products for simulating arbitrary unmodified code 有权用于模拟任意未修改代码的方法,设备和计算机程序产品公开(公告)号:US08170859B1
公开(公告)日:2012-05-01
申请号:US11412831
申请日:2006-04-28
CPC分类号: G06F11/3457 , G06F9/455 , G06F9/4812 , G06F11/3419 , G06F11/3616 , G06F2201/81 , G06F2201/815 , G06F2201/865 , G06F2201/88
摘要: Arbitrary, unmodified code and/or software may be executed directly on a host processor operating in a virtualized mode using hardware virtualization support and performance counters. The arbitrary software may be run on the host processor until the host processor exits from the virtualized mode. An end execution time may be calculated in response to the host processor exiting from the virtualized mode. An event may then be handled based on an execution time at which the host processor exited from the virtualized mode and a time at which a scheduled event was to occur.
摘要翻译: 可以使用硬件虚拟化支持和性能计数器直接在使用虚拟化模式运行的主机处理器上执行任意的未修改的代码和/或软件。 任意软件可以在主机处理器上运行,直到主机处理器退出虚拟化模式。 可以响应于主机处理器从虚拟化模式退出来计算结束执行时间。 然后可以基于主机处理器从虚拟化模式退出的执行时间和预定事件发生的时间来处理事件。
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2.发明申请METHOD AND SYSTEM FOR MULTIMODE SIMULATOR GENERATION FROM AN INSTRUCTION SET ARCHITECTURE SPECIFICATION 审中-公开来自指令集架构规范的多模仿真器生成方法与系统公开(公告)号:US20050015754A1
公开(公告)日:2005-01-20
申请号:US10710099
申请日:2004-06-18
CPC分类号: G06F9/45508 , G06F9/45516
摘要: The present invention discloses method and system for a multimode simulator having an emulation core with improved performance. In an embodiment of the invention, the overhead caused by the exclusive use of the simulation technique using one instruction-at-a-time interpretation is reduced by additionally using binary translation for executed blocks of interpreted instructions (i.e. that contain no jumps out of the block) from the same instruction set architecture description. Since performing translations too frequently can undesirably increase overhead by overloading the cache, the binary translation is only performed for blocks that are executed frequently. Once the blocks are translated e.g. by forming the block from instructions via templates and generating the collective code, the overall simulator performance is significantly improved by running the blocks instead of running the instructions one-at-a-time.
摘要翻译: 本发明公开了一种具有改进性能的仿真核心的多模式仿真器的方法和系统。 在本发明的一个实施例中,通过另外对被解释的指令的执行块额外使用二进制转换来减少由使用一次一次指令的独占使用的模拟技术引起的开销(即,不包含从 块)从相同的指令集架构描述。 由于执行翻译太频繁可能会不期望地通过超载高速缓存来增加开销,所以仅对经常执行的块执行二进制转换。 一旦块被翻译,例如 通过通过模板从指令形成块并生成集合代码,通过运行块而不是一次一个地运行指令来显着改善整体模拟器的性能。
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公开(公告)号:US08864993B2
公开(公告)日:2014-10-21
申请号:US13439153
申请日:2012-04-04
摘要: A process that utilizes ammonium oxidizing bacteria (AOB) and anaerobic ammonium oxidizing (ANAMMOX) bacteria to remove ammonium from a wastewater stream. Sludge separated from the wastewater in a mainstream is processed in a sidestream that includes an anaerobic digester, a dewatering system, and a biofilm reactor. The anaerobic digester produces digested sludge that is dewatered, producing reject water that includes a relatively high ammonium concentration and a relatively low organic carbon concentration and a relatively high temperature. The reject water is treated in a sidestream deammonification biofilm reactor that includes biofilm carriers seeded with AOB and ANAMMOX bacteria that are effective to remove ammonium from the reject water. AOB and ANAMMOX bacteria on the media carriers is utilized to contact the wastewater in the mainstream and to remove ammonium therefrom.
摘要翻译: 利用铵氧化细菌(AOB)和厌氧氨氧化(ANAMMOX)细菌从废水流中除去铵的方法。 在主流废水中分离的污泥以包括厌氧消化器,脱水系统和生物膜反应器的侧流处理。 厌氧消化器产生脱水的消化污泥,产生排泄水,其含有较高的铵浓度和较低的有机碳浓度以及较高的温度。 废水在侧流脱氨生物膜反应器中处理,其包括用有效从排污水中除去铵的AOB和ANAMMOX细菌接种的生物膜载体。 媒介载体上的AOB和ANAMMOX细菌用于与主流的废水接触并从其中除去铵。
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公开(公告)号:US20130264280A1
公开(公告)日:2013-10-10
申请号:US13439153
申请日:2012-04-04
摘要: A process that utilizes ammonium oxidizing bacteria (AOB) and anaerobic ammonium oxidizing (ANAMMOX) bacteria to remove ammonium from a wastewater stream. Sludge separated from the wastewater in a mainstream is processed in a sidestream that includes an anaerobic digester, a dewatering system, and a biofilm reactor. The anaerobic digester produces digested sludge that is dewatered, producing reject water that includes a relatively high ammonium concentration and a relatively low organic carbon concentration and a relatively high temperature. The reject water is treated in a sidestream deammonification biofilm reactor that includes biofilm carriers seeded with AOB and ANAMMOX bacteria that are effective to remove ammonium from the reject water. In order to remove ammonium from the wastewater in the mainstream, the AOB and ANAMMOX bacteria on the media carriers is utilized to contact the wastewater in the mainstream and to remove ammonium therefrom. Because of the conditions in the mainstream, after a period of time, the AOB and ANAMMOX bacteria does not efficiently remove ammonium. To rejuvenate the AOB and ANAMMOX bacteria on the biofilm carriers, the AOB and ANAMMOX bacteria is again contacted with the reject water in the sidestream biofilm reactor where conditions are favorable for the growth and proliferation of the AOB and ANAMMOX bacteria.
摘要翻译: 利用铵氧化细菌(AOB)和厌氧氨氧化(ANAMMOX)细菌从废水流中除去铵的方法。 在主流废水中分离的污泥以包括厌氧消化器,脱水系统和生物膜反应器的侧流处理。 厌氧消化器产生脱水的消化污泥,产生排泄水,其含有较高的铵浓度和较低的有机碳浓度以及较高的温度。 废水在侧流脱氨生物膜反应器中处理,其包括用有效从排污水中除去铵的AOB和ANAMMOX细菌接种的生物膜载体。 为了从主流的废水中除去铵,媒质载体上的AOB和ANAMMOX细菌用于与主流废水接触并从其中除去铵。 由于主流的条件,一段时间后,AOB和ANAMMOX细菌不能有效去除铵。 为了使生物膜载体上的AOB和ANAMMOX细菌恢复活力,AOB和ANAMMOX细菌再次与侧流生物膜反应器中的废水接触,其条件有利于AOB和ANAMMOX细菌的生长和增殖。
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