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1. 发明授权

US5325517A Fault tolerant data processing system 失效
标题翻译：容错数据处理系统
公开(公告)号：US5325517A
公开(公告)日：1994-06-28
申请号：US353116
申请日：1989-05-17
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson , Gustavo A. Suarez
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson , Gustavo A. Suarez
IPC分类号： G06F11/18 , G06F11/00 , G06F11/10 , G06F11/16 , G06F11/20 , G06F15/16 , G06F15/173 , G06F15/177
CPC分类号： G06F11/1641 , G06F11/10 , G06F11/1008 , G06F11/1482 , G06F11/16 , G06F11/20
摘要： The functions of two virtual operating systems (e.g., S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.
摘要翻译：两个虚拟操作系统（例如，S / 370VM，VSE或IX370和S / 88OS）的功能被合并到一个物理系统中。 S / 88处理器的合作伙伴对运行S / 88操作系统，并处理系统的容错和单系统映像方面。 S / 370处理器的一个或多个伙伴对直接和通过S / 88总线耦合到对应的S / 88处理器。每个S / 370处理器从S / 88主存储器分配从1到16兆字节的连续存储。每个S / 370虚拟操作系统认为其存储器分配从地址0开始，并且通过正常的S / 370动态存储器分配和寻呼技术管理其存储器。 S / 370被限制检查以防止S / 370访问S / 88存储器空间。 S / 88操作系统是所有系统硬件和I / O设备的主控。 S / 88处理器直接响应S / 88应用程序来访问S / 370地址空间，以便S / 88可以将I / O数据移动到S / 370 I / O缓冲器中并处理S / 370 I / O操作。 S / 88和S / 370对等体处理器对在单个系统环境中执行其各自的操作系统，而不会显着地重写任一操作系统。操作系统都不知道其他操作系统和其他处理器对。

2. 发明授权

US5144692A System for controlling access by first system to portion of main memory dedicated exclusively to second system to facilitate input/output processing via first system 失效
标题翻译：用于控制第一系统访问主系统的系统专用于第二系统以便通过第一系统来辅助输入/输出处理
公开(公告)号：US5144692A
公开(公告)日：1992-09-01
申请号：US353113
申请日：1989-05-17
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , John M. Loffredo , Kenneth R. Sanderson , Gustavo A. Suarez
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , John M. Loffredo , Kenneth R. Sanderson , Gustavo A. Suarez
IPC分类号： G06F9/46 , G06F9/50 , G06F11/16 , G06F12/02 , G06F13/18 , G06F15/16 , G06F15/167 , G06F15/177
CPC分类号： G06F9/5016 , G06F11/1641 , G06F11/1658 , G06F11/1679 , G06F15/161
摘要： The functions of two virtual operating systems (e.g., S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

3. 发明授权

US5363497A System for removing section of memory from first system and allocating to second system in a manner indiscernable to both operating systems 失效
标题翻译：用于从第一系统中去除存储器部分并以对两个操作系统不可理解的方式分配给第二系统的系统
公开(公告)号：US5363497A
公开(公告)日：1994-11-08
申请号：US128760
申请日：1993-09-30
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , John M. Loffredo , Kenneth R. Sanderson , Gustavo A. Suarez
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , John M. Loffredo , Kenneth R. Sanderson , Gustavo A. Suarez
IPC分类号： G06F9/46 , G06F9/50 , G06F11/16 , G06F12/02 , G06F13/18 , G06F15/16 , G06F15/167 , G06F15/177
CPC分类号： G06F9/5016 , G06F11/1641 , G06F11/1658 , G06F11/1679 , G06F15/161
摘要： The functions of two virtual operating systems (e.g., S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques, The S/370 is limit checked prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.
摘要翻译：两个虚拟操作系统（例如，S / 370VM，VSE或IX370和S / 88OS）的功能被合并到一个物理系统中。 S / 88处理器的合作伙伴对运行S / 88操作系统，并处理系统的容错和单系统映像方面。 S / 370处理器的一个或多个伙伴对直接和通过S / 88总线耦合到对应的S / 88处理器。每个S / 370处理器从S / 88主存储器分配从1到16兆字节的连续存储。每个S / 370虚拟操作系统认为其存储器分配从地址0开始，并且通过正常的S / 370动态存储器分配和寻呼技术管理其存储器.S / 370是限制检查，防止S / 370访问S / 88 内存空间。 S / 88操作系统是所有系统硬件和I / O设备的主控。 S / 88处理器直接响应于S / 88应用程序来访问S / 370地址空间，使得S / 88可以将I / O数据移动到S / 370 I / O缓冲器中并且分别处理S / 370 操作系统在单个系统环境中，而不会显着重写任一操作系统。操作系统都不知道其他操作系统和其他处理器对。

4. 发明授权

US5388215A Uncoupling a central processing unit from its associated hardware for interaction with data handling apparatus alien to the operating system controlling said unit and hardware 失效
标题翻译：从其相关联的硬件解耦中央处理单元，用于与控制所述单元和硬件的操作系统不相关的数据处理装置进行交互
公开(公告)号：US5388215A
公开(公告)日：1995-02-07
申请号：US234706
申请日：1994-04-28
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
IPC分类号： G06F15/16 , G06F9/46 , G06F11/00 , G06F11/16 , G06F11/20 , G06F12/02 , G06F13/368 , G06F15/177 , G06F15/20
CPC分类号： G06F11/1658 , G06F11/1641 , G06F11/1679 , G06F12/023 , G06F12/0284 , G06F13/368 , G06F11/1608 , G06F11/1616 , G06F11/1625 , G06F11/1633
摘要： The functions of two virtual operating systems (e. S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.
摘要翻译：两个虚拟操作系统（例如S / 370 VM，VSE或IX370和S / 88 OS）的功能被合并到一个物理系统中。 S / 88处理器的合作伙伴对运行S / 88操作系统，并处理系统的容错和单系统映像方面。 S / 370处理器的一个或多个伙伴对直接和通过S / 88总线耦合到对应的S / 88处理器。每个S / 370处理器从S / 88主存储器分配从1到16兆字节的连续存储。每个S / 370虚拟操作系统认为其存储器分配从地址0开始，并且通过正常的S / 370动态存储器分配和寻呼技术管理其存储器。 S / 370被限制检查以防止S / 370访问S / 88存储器空间。 S / 88操作系统是所有系统硬件和I / O设备的主控。 S / 88处理器直接响应S / 88应用程序来访问S / 370地址空间，以便S / 88可以将I / O数据移动到S / 370 I / O缓冲器中并处理S / 370 I / O操作。 S / 88和S / 370对等体处理器对在单个系统环境中执行其各自的操作系统，而不会显着地重写任一操作系统。操作系统都不知道其他操作系统和其他处理器对。

5. 发明授权

US5369749A Method and apparatus for the direct transfer of information between application programs running on distinct processors without utilizing the services of one or both operating systems 失效
标题翻译：用于在不使用一个或两个操作系统的服务的情况下在不同处理器之间运行的应用程序之间直接传送信息的方法和装置
公开(公告)号：US5369749A
公开(公告)日：1994-11-29
申请号：US230433
申请日：1994-04-19
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
IPC分类号： G06F15/17 , G06F13/00
CPC分类号： G06F15/17
摘要： The functions of two virtual operating systems (e.g., S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.
摘要翻译：两个虚拟操作系统（例如，S / 370VM，VSE或IX370和S / 88OS）的功能被合并到一个物理系统中。 S / 88处理器的合作伙伴对运行S / 88操作系统，并处理系统的容错和单系统映像方面。 S / 370处理器的一个或多个伙伴对直接和通过S / 88总线耦合到对应的S / 88处理器。每个S / 370处理器从S / 88主存储器分配从1到16兆字节的连续存储。每个S / 370虚拟操作系统认为其存储器分配从地址0开始，并且通过正常的S / 370动态存储器分配和寻呼技术管理其存储器。 S / 370被限制检查以防止S / 370访问S / 88存储器空间。 S / 88操作系统是所有系统硬件和I / O设备的主控。 S / 88处理器直接响应S / 88应用程序来访问S / 370地址空间，以便S / 88可以将I / O数据移动到S / 370 I / O缓冲器中并处理S / 370 I / O操作。 S / 88和S / 370对等体处理器对在单个系统环境中执行其各自的操作系统，而不会显着地重写任一操作系统。操作系统都不知道其他操作系统和其他处理器对。

6. 发明授权

US5283868A Providing additional system characteristics to a data processing system through operations of an application program, transparently to the operating system 失效
标题翻译：通过对应用程序的操作向数据处理系统提供额外的系统特性，对操作系统是透明的
公开(公告)号：US5283868A
公开(公告)日：1994-02-01
申请号：US353111
申请日：1989-05-17
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
IPC分类号： G06F15/16 , G06F12/02 , G06F13/38
CPC分类号： G06F13/387 , G06F12/0284
摘要： The functions of two virtual operating systems (e.g., S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.
摘要翻译：两个虚拟操作系统（例如，S / 370VM，VSE或IX370和S / 88OS）的功能被合并到一个物理系统中。 S / 88处理器的合作伙伴对运行S / 88操作系统，并处理系统的容错和单系统映像方面。 S / 370处理器的一个或多个伙伴对直接和通过S / 88总线耦合到对应的S / 88处理器。每个S / 370处理器从S / 88主存储器分配从1到16兆字节的连续存储。每个S / 370虚拟操作系统认为其存储器分配从地址0开始，并且通过正常的S / 370动态存储器分配和寻呼技术管理其存储器。 S / 370被限制检查以防止S / 370访问S / 88存储器空间。 S / 88操作系统是所有系统硬件和I / O设备的主控。 S / 88处理器直接响应S / 88应用程序来访问S / 370地址空间，以便S / 88可以将I / O数据移动到S / 370 I / O缓冲器中并处理S / 370 I / O操作。 S / 88和S / 370对等体处理器对在单个系统环境中执行其各自的操作系统，而不会显着地重写任一操作系统。操作系统都不知道其他操作系统和其他处理器对。

7. 发明授权

US5155809A Uncoupling a central processing unit from its associated hardware for interaction with data handling apparatus alien to the operating system controlling said unit and hardware 失效
标题翻译：从与相关硬件相关的中央处理单元与数据处理设备交互，操作系统控制所述单元和硬件
公开(公告)号：US5155809A
公开(公告)日：1992-10-13
申请号：US353114
申请日：1989-05-17
申请人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
发明人： Ernest D. Baker , John M. Dinwiddie, Jr. , Lonnie E. Grice , James M. Joyce , John M. Loffredo , Kenneth R. Sanderson
IPC分类号： G06F15/16 , G06F9/46 , G06F11/00 , G06F11/16 , G06F11/20 , G06F12/02 , G06F13/368 , G06F15/177
CPC分类号： G06F11/1658 , G06F11/1641 , G06F11/1679 , G06F12/023 , G06F12/0284 , G06F13/368 , G06F11/1608 , G06F11/1616 , G06F11/1625 , G06F11/1633
摘要： The functions of two virtual operating systems (e.g., S/370 VM, VSE or IX370 and S/88 OS) are merged into one physical system. Partner pairs of S/88 processors run the S/88 OS and handle the fault tolerant and single system image aspects of the system. One or more partner pairs of S/370 processors are coupled to corresponding S/88 processors directly and through the S/88 bus. Each S/370 processor is allocated from 1 to 16 megabytes of contiguous storage from the S/88 main storage. Each S/370 virtual operating system thinks its memory allocation starts at address 0, and it manages its memory through normal S/370 dynamic memory allocation and paging techniques. The S/370 is limit checked to prevent the S/370 from accessing S/88 memory space. The S/88 Operating System is the master over all system hardware and I/O devices. The S/88 processors access the S/370 address space in direct response to a S/88 application program so that the S/88 may move I/O data into the S/370 I/O buffers and process the S/370 I/O operations. The S/88 and S/370 peer processor pairs execute their respective Operating Systems in a single system environment without significant rewriting of either operating system. Neither operating system is aware of the other operating system nor the other processor pairs.

8. 发明授权

US06971942B2 Rotary feedback mechanism for a toy 有权
标题翻译：玩具的旋转反馈机构
公开(公告)号：US06971942B2
公开(公告)日：2005-12-06
申请号：US10757154
申请日：2004-01-14
申请人： Ernest D. Baker , Leonard R. Clark, Jr. , Jesse Dorogusker , David Vincent Helmlinger , Eric David Listenberger , Joseph Thomas Moll , David Ribbe , Stephen N. Weiss
发明人： Ernest D. Baker , Leonard R. Clark, Jr. , Jesse Dorogusker , David Vincent Helmlinger , Eric David Listenberger , Joseph Thomas Moll , David Ribbe , Stephen N. Weiss
IPC分类号： A63H11/10 , A63H11/00
CPC分类号： A63H11/10
摘要： A rotary feedback mechanism includes a first set of electrically conductive pads mounted to a first member and a wiper mounted to a second member. As the first and second members rotate relative to one another, the wiper sequentially contacts one or more pads of the first set of pads and provides an electrical signal to the contacted pad or pads. The electrical signal is communicated via the pad or pads to a controller, providing the controller with an indication of the angular position of the first member relative to the second member.
摘要翻译：旋转反馈机构包括安装到第一构件的第一组导电垫和安装到第二构件的擦拭器。当第一和第二构件相对于彼此旋转时，擦拭器顺序地接触第一组焊盘的一个或多个焊盘并且向接触的焊盘或焊盘提供电信号。电信号通过焊盘或焊盘传送到控制器，为控制器提供第一构件相对于第二构件的角位置的指示。

9. 发明授权

US06726523B2 Remote-controlled toy skateboard device 有权
标题翻译：遥控玩具滑板装置
公开(公告)号：US06726523B2
公开(公告)日：2004-04-27
申请号：US10071519
申请日：2002-02-08
申请人： Ernest D. Baker , Leonard R. Clark, Jr. , Jesse Dorogusker , David Vincent Helmlinger , Eric David Listenberger , Joseph Thomas Moll , David Ribbe , Stephen N. Weiss
发明人： Ernest D. Baker , Leonard R. Clark, Jr. , Jesse Dorogusker , David Vincent Helmlinger , Eric David Listenberger , Joseph Thomas Moll , David Ribbe , Stephen N. Weiss
IPC分类号： A63H1100
CPC分类号： A63H11/10
摘要： A remote-controlled toy skateboard device comprises a skateboard with a deck and front and rear truck assemblies pivotally connected to the deck. A toy figure has a lower body portion that is fixedly connected to the deck and an upper body portion that is connected for rotation with respect to the lower body portion. A torso drive mechanism is operably connected to the upper body portion of the toy figure to rotate the upper body portion with respect to the lower body portion. A steering mechanism is operably connected with one of the truck assemblies to tilt the deck with respect to the truck assemblies to thereby steer the skateboard. A drive mechanism is also operably connected to wheels of one truck assembly to propel the skateboard. A remote-control unit is configured to generate signals to remotely control movement of the toy figure, tilt between the deck and truck assemblies, and the speed and travel direction of the skateboard.
摘要翻译：遥控玩具滑板装置包括具有甲板的滑板和枢转地连接到甲板的前后卡车组件。玩具人物具有固定地连接到甲板的下主体部分和连接成相对于下主体部分旋转的上主体部分。躯干驱动机构可操作地连接到玩具人物的上身部分，以相对于下主体部分转动上主体部分。转向机构与其中一个卡车组件可操作地连接，以相对于卡车组件倾斜甲板，从而转向滑板。驱动机构也可操作地连接到一个卡车组件的车轮以推动滑板。远程控制单元被配置为产生信号以远程控制玩具人物的运动，甲板和卡车组件之间的倾斜以及滑板的速度和行进方向。

10. 发明授权

US4825357A I/O controller for multiple disparate serial memories with a cache 失效
标题翻译：具有缓存的多个不同的串行存储器的I / O控制器
公开(公告)号：US4825357A
公开(公告)日：1989-04-25
申请号：US110080
申请日：1987-10-14
申请人： Hernando Ovies , Neil A. Katz , Robert H. Farrell , Ernest D. Baker
发明人： Hernando Ovies , Neil A. Katz , Robert H. Farrell , Ernest D. Baker
IPC分类号： G06F13/12 , G06F3/06 , G06F12/08 , G06F13/00
CPC分类号： G06F12/0866
摘要： An I/O controller for a computer system having a plurality of memory devices of different types such as floppy and hard disks, whereinn a single cache memory is employed for all of the memory devices. Each of the memory devices is provided with its own interface device which directs data outputted from the associated memory device onto a common device bus. From the device bus data is transferred to a cache memory via a separate cache bus, and then to a system processor via the same cache bus. Memory space within the cache memory may be allocated among the various memory devices.
摘要翻译：一种用于具有不同类型的多个存储器件（诸如软盘和硬盘）的计算机系统的I / O控制器，其中在所有存储器件中采用单个高速缓冲存储器。每个存储器件都具有其自身的接口装置，其将从相关联的存储器件输出的数据引导到公共设备总线上。从设备总线数据通过单独的高速缓存总线传输到高速缓冲存储器，然后通过相同的高速缓存总线传送到系统处理器。高速缓冲存储器内的存储器空间可以在各种存储器件之间分配。

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