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1.发明申请Development and Deployment of Parallel Floating-Point Math Functionality on a System with Heterogeneous Hardware Components 审中-公开在具有异构硬件组件的系统上开发和部署并行浮点数学功能公开(公告)号:US20140359590A1
公开(公告)日:2014-12-04
申请号:US14063130
申请日:2013-10-25
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler , Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp
IPC: G06F9/45
CPC classification number: G06F8/34 , G06F7/483 , G06F8/451 , G06F2207/48
Abstract: System and method for configuring a system of heterogeneous hardware components, including at least one: programmable hardware element (PHE), digital signal processor (DSP) core, and programmable communication element (PCE). A program, e.g., a graphical program (GP), which includes floating point math functionality and which is targeted for distributed deployment on the system is created. Respective portions of the program for deployment to respective ones of the hardware components are automatically determined. Program code implementing communication functionality between the at least one PHE and the at least one DSP core and targeted for deployment to the at least one PCE is automatically generated. At least one hardware configuration program (HCP) is generated from the program and the code, including compiling the respective portions of the program and the program code for deployment to respective hardware components. The HCP is deployable to the system for concurrent execution of the program.
Abstract translation: 用于配置异构硬件组件系统的系统和方法,包括至少一个:可编程硬件元件(PHE),数字信号处理器(DSP)核心和可编程通信元件(PCE)。 创建包括浮点数学功能并且用于在系统上进行分布式部署的程序,例如图形程序(GP)。 用于部署到相应硬件组件的程序的各个部分被自动确定。 在至少一个PHE和至少一个DSP核之间实现通信功能并且被目标用于部署到至少一个PCE的程序代码被自动生成。 从程序和代码生成至少一个硬件配置程序(HCP),包括将程序的各个部分和用于部署的程序代码编译到各个硬件组件。 HCP可以部署到系统以便并发执行程序。
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公开(公告)号:US09904523B2
公开(公告)日:2018-02-27
申请号:US14947198
申请日:2015-11-20
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler , Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp
CPC classification number: G06F8/34 , G06F7/483 , G06F8/451 , G06F2207/48
Abstract: System and method for configuring a system of heterogeneous hardware components, including at least one: programmable hardware element (PHE), digital signal processor (DSP) core, and programmable communication element (PCE). A program, e.g., a graphical program (GP), which includes floating point math functionality and which is targeted for distributed deployment on the system is created. Respective portions of the program for deployment to respective ones of the hardware components are automatically determined. Program code implementing communication functionality between the at least one PHE and the at least one DSP core and targeted for deployment to the at least one PCE is automatically generated. At least one hardware configuration program (HCP) is generated from the program and the code, including compiling the respective portions of the program and the program code for deployment to respective hardware components. The HCP is deployable to the system for concurrent execution of the program.
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3.发明申请
公开(公告)号:US20160077811A1
公开(公告)日:2016-03-17
申请号:US14947198
申请日:2015-11-20
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler , Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp
CPC classification number: G06F8/34 , G06F7/483 , G06F8/451 , G06F2207/48
Abstract: System and method for configuring a system of heterogeneous hardware components, including at least one: programmable hardware element (PHE), digital signal processor (DSP) core, and programmable communication element (PCE). A program, e.g., a graphical program (GP), which includes floating point math functionality and which is targeted for distributed deployment on the system is created. Respective portions of the program for deployment to respective ones of the hardware components are automatically determined. Program code implementing communication functionality between the at least one PHE and the at least one DSP core and targeted for deployment to the at least one PCE is automatically generated. At least one hardware configuration program (HCP) is generated from the program and the code, including compiling the respective portions of the program and the program code for deployment to respective hardware components. The HCP is deployable to the system for concurrent execution of the program.
Abstract translation: 用于配置异构硬件组件系统的系统和方法,包括至少一个:可编程硬件元件(PHE),数字信号处理器(DSP)核心和可编程通信元件(PCE)。 创建包括浮点数学功能并且用于在系统上进行分布式部署的程序,例如图形程序(GP)。 用于部署到相应硬件组件的程序的各个部分被自动确定。 在至少一个PHE和至少一个DSP核之间实现通信功能并且被目标用于部署到至少一个PCE的程序代码被自动生成。 从程序和代码生成至少一个硬件配置程序(HCP),包括将程序的各个部分和用于部署的程序代码编译到各个硬件组件。 HCP可以部署到系统以便并发执行程序。
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4.发明授权
公开(公告)号:US09235395B2
公开(公告)日:2016-01-12
申请号:US14063049
申请日:2013-10-25
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler , Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp
CPC classification number: G06F8/34 , G06F7/483 , G06F8/451 , G06F2207/48
Abstract: System and method for configuring a system of heterogeneous hardware components, including at least one: programmable hardware element (PHE), digital signal processor (DSP) core, and programmable communication element (PCE). A program, e.g., a graphical program (GP), which includes floating point math functionality and which is targeted for distributed deployment on the system is created. Respective portions of the program for deployment to respective ones of the hardware components are automatically determined. Program code implementing communication functionality between the at least one PHE and the at least one DSP core and targeted for deployment to the at least one PCE is automatically generated. At least one hardware configuration program (HCP) is generated from the program and the code, including compiling the respective portions of the program and the program code for deployment to respective hardware components. The HCP is deployable to the system for concurrent execution of the program.
Abstract translation: 用于配置异构硬件组件系统的系统和方法,包括至少一个:可编程硬件元件(PHE),数字信号处理器(DSP)核心和可编程通信元件(PCE)。 创建包括浮点数学功能并且用于在系统上进行分布式部署的程序,例如图形程序(GP)。 用于部署到相应硬件组件的程序的各个部分被自动确定。 在至少一个PHE和至少一个DSP核之间实现通信功能并且被目标用于部署到至少一个PCE的程序代码被自动生成。 从程序和代码生成至少一个硬件配置程序(HCP),包括将程序的各个部分和用于部署的程序代码编译到各个硬件组件。 HCP可以部署到系统以便并发执行程序。
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5.发明申请
公开(公告)号:US20140359589A1
公开(公告)日:2014-12-04
申请号:US14063049
申请日:2013-10-25
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler , Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp
IPC: G06F9/45
CPC classification number: G06F8/34 , G06F7/483 , G06F8/451 , G06F2207/48
Abstract: System and method for configuring a system of heterogeneous hardware components, including at least one: programmable hardware element (PHE), digital signal processor (DSP) core, and programmable communication element (PCE). A program, e.g., a graphical program (GP), which includes floating point math functionality and which is targeted for distributed deployment on the system is created. Respective portions of the program for deployment to respective ones of the hardware components are automatically determined. Program code implementing communication functionality between the at least one PHE and the at least one DSP core and targeted for deployment to the at least one PCE is automatically generated. At least one hardware configuration program (HCP) is generated from the program and the code, including compiling the respective portions of the program and the program code for deployment to respective hardware components. The HCP is deployable to the system for concurrent execution of the program.
Abstract translation: 用于配置异构硬件组件系统的系统和方法,包括至少一个:可编程硬件元件(PHE),数字信号处理器(DSP)核心和可编程通信元件(PCE)。 创建包括浮点数学功能并且用于在系统上进行分布式部署的程序,例如图形程序(GP)。 用于部署到相应硬件组件的程序的各个部分被自动确定。 在至少一个PHE和至少一个DSP核之间实现通信功能并且被目标用于部署到至少一个PCE的程序代码被自动生成。 从程序和代码生成至少一个硬件配置程序(HCP),包括将程序的各个部分和用于部署的程序代码编译到各个硬件组件。 HCP可以部署到系统以便并发执行程序。
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公开(公告)号:US09652213B2
公开(公告)日:2017-05-16
申请号:US14883876
申请日:2015-10-15
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp , Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler
CPC classification number: G06F8/60 , G05B17/02 , G06F8/38 , G06F8/451 , G06F9/455 , G06F11/261 , G06F11/2733 , G06F11/3608 , G06F17/50 , G06F17/5009 , G06F2217/86
Abstract: Global optimization and verification of cyber-physical systems using graphical floating point math functionality on a heterogeneous hardware system (HHS). A program includes floating point implementations of a control program (CP), model of a physical system (MPS), objective function, requirements verification program (RVP), and/or global optimizer. A simulation simulates HHS implementation of the program using co-simulation with a trusted model, including simulating behavior and timing of distributed execution of the program on the HHS, and may verify the HHS implementation using the RVP. The HHS is configured to execute the CP and MPS concurrently in a distributed manner. After deploying the program to the HHS, the HHS is configured to globally optimize (improve) the CP and MPS executing concurrently on the HHS via the global optimizer. The optimized MPS may be usable to construct the physical system. The optimized CP may be executable on the HHS to control the physical system.
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7.发明申请Global Optimization and Verification of Cyber-Physical Systems Using Floating Point Math Functionality on a System with Heterogeneous Hardware Components 有权使用浮点数学功能对具有异构硬件组件的系统进行网络物理系统的全局优化和验证
公开(公告)号:US20160117158A1
公开(公告)日:2016-04-28
申请号:US14883876
申请日:2015-10-15
Applicant: NATIONAL INSTRUMENTS CORPORATION
Inventor: Brian C. MacCleery , James C. Nagle , J. Marcus Monroe , Alexandre M. Barp , Jeffrey L. Kodosky , Hugo A. Andrade , Brian Keith Odom , Cary Paul Butler
CPC classification number: G06F8/60 , G05B17/02 , G06F8/38 , G06F8/451 , G06F9/455 , G06F11/261 , G06F11/2733 , G06F11/3608 , G06F17/50 , G06F17/5009 , G06F2217/86
Abstract: Global optimization and verification of cyber-physical systems using graphical floating point math functionality on a heterogeneous hardware system (HHS). A program includes floating point implementations of a control program (CP), model of a physical system (MPS), objective function, requirements verification program (RVP), and/or global optimizer. A simulation simulates HHS implementation of the program using co-simulation with a trusted model, including simulating behavior and timing of distributed execution of the program on the HHS, and may verify the HHS implementation using the RVP. The HHS is configured to execute the CP and MPS concurrently in a distributed manner. After deploying the program to the HHS, the HHS is configured to globally optimize (improve) the CP and MPS executing concurrently on the HHS via the global optimizer. The optimized MPS may be usable to construct the physical system. The optimized CP may be executable on the HHS to control the physical system.
Abstract translation: 使用异构硬件系统(HHS)上的图形浮点数学功能对网络物理系统进行全局优化和验证。 程序包括控制程序(CP),物理系统模型(MPS),目标函数,需求验证程序(RVP)和/或全局优化器的浮点实现。 仿真模拟使用与受信任模型进行协同仿真的程序的HHS实现,包括模拟HHS上程序的分布式执行行为和时序,并可使用RVP验证HHS实现。 HHS配置为以分布式方式同时执行CP和MPS。 在将程序部署到HHS之后,HHS被配置为通过全局优化器全面优化(改进)在HHS上同时执行的CP和MPS。 优化的MPS可用于构建物理系统。 优化的CP可以在HHS上执行以控制物理系统。
