Result for 18F2C66B1C41A9865249DE9A293943B39558774B

Query result

Key Value
FileName./usr/lib/x86_64-linux-gnu/cmake/boost_fiber-1.74.0/libboost_fiber-variant-shared.cmake
FileSize2509
MD59E155ACFEA469E1C5F270BF5D068D835
SHA-118F2C66B1C41A9865249DE9A293943B39558774B
SHA-256896B6D9401FB57C6B14486E84C38CD25501305466A243AD87C26659683928BC8
SSDEEP24:8mptG3iFqwKh5fQVZ+KrhQ+wow2gn0GT0MDoxoFTG3cIvvn7Z/CNAIrsNfJBNSTt:Qm2WT7r27T/folZNhSyKIIIBU
TLSHT12E513151FAC52CC88387C582BAE3611897DA5DE567A8076CEB8CC299D0F681D40E7367
hashlookup:parent-total18
hashlookup:trust100

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Parents (Total: 18)

The searched file hash is included in 18 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize275320
MD52E76BDF516C695ACA618322507D7A5A0
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-9
SHA-1016C8F300A669757838E1FCEE8C196551AFDF3C8
SHA-2567CD9B4B799E867040E25C0B22F1FFAEC59B4098FC8B4378C9BF1385581A1048C
Key Value
FileSize245408
MD53D41E0973A005BFF5BEE73FCADFA0DD1
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerUbuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-8ubuntu2
SHA-10335A841358A3782109E6B5527F6E76A91B534E1
SHA-256123B7C3F7E5C2F8FC754367661190F6AD64DADF4DFB76AD9D476F59734A7104E
Key Value
FileSize275244
MD593D63EC0A5523C0A9DA0E9BE132EB0C0
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-9
SHA-10774D4D8BE6F93023A43F5DACDE2470C7744D7CC
SHA-25661A74A65B0ECAA9F58CDE3688387DC1E6BCB94F6F05275A5E41C0B3A77EED9BD
Key Value
FileSize276460
MD5B37890C0FDD13D02CBFB2E7711EC9B7E
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-9
SHA-10A2D83405A4640EE2AD685E95A081612CE33088E
SHA-256DFB180DB71C340847F7CC4E589B3C2E99E47474C63964603077967387F00308A
Key Value
FileSize279864
MD58754C5D0922EDF023AD65C2743D4368D
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-9
SHA-117D0164D9A673CFE5941A97866FDCC62C0D3771C
SHA-2560B1B8ADFD1963B7C3C99918347023A931E3D06753D7E18F0824B60496E19A394
Key Value
FileSize276320
MD5E7F253138BE15C57D8E62E25F65C9056
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-3+b1
SHA-137B479AE662EDDD537033BADD480C47BB3D6D841
SHA-256B9A23074D18F52A5704258ADA772F9946FD8E2C9C379DE18B5298B681A122630
Key Value
FileSize275148
MD574E2C74A5755AFE3789E4E5355CC13AB
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-3+b1
SHA-14AF29D6C6C8D628784B082534239CCB0BABFE535
SHA-2569F94EA6B29BB62435C4EC9991DE9B7B736E61DC9AAFCF0AB6DC996F0F92DE796
Key Value
FileSize274848
MD53564CFC027061B6FA6842F68FE999E2F
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-10
SHA-153EFAEF14A1C27731D5D16D07D9C6AD49D9E348E
SHA-256B079372C08F20EE0DEB254AB938F32AC1668A22143D4740ADC8D0FBC8DE0BF9E
Key Value
FileSize280572
MD52079D6F37D2FF34701911BBE73E3C78D
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-11
SHA-158E99FB309CC472D3634C70A6E48E0EF48953EF6
SHA-256685D8B269DEA34FB352661827526EB42E8A49BE0C932E7883A4C36DD3B06FD63
Key Value
FileSize276172
MD5E4F25C3BA86E07141D5DD9B1A6434762
PackageDescriptioncooperatively-scheduled micro-/userland-threads This package forms part of the Boost C++ Libraries collection. . Boost.Fiber provides a framework for micro-/userland-threads (fibers) scheduled cooperatively. The API contains classes and functions to manage and synchronize fibers similarly to standard thread support library. . Each fiber has its own stack. . A fiber can save the current execution state, including all registers and CPU flags, the instruction pointer, and the stack pointer and later restore this state. The idea is to have multiple execution paths running on a single thread using cooperative scheduling (versus threads, which are preemptively scheduled). The running fiber decides explicitly when it should yield to allow another fiber to run (context switching). Boost.Fiber internally uses execution_context from Boost.Context; the classes in this library manage, schedule and, when needed, synchronize those execution contexts. A context switch between threads usually costs thousands of CPU cycles on x86, compared to a fiber switch with less than a hundred cycles. A fiber runs on a single thread at any point in time.
PackageMaintainerDebian Boost Team <team+boost@tracker.debian.org>
PackageNamelibboost-fiber1.74-dev
PackageSectionlibdevel
PackageVersion1.74.0-11
SHA-16A0CB16C2CB0FE27199BDF5703F2C19E3E77F765
SHA-256A40BEF0433F1C9BA8196AF4D86AC5B0F20E7DFE0627A1965CF8A381415FB709D