Result for 77EE4817A5498C49FAB9F8C968D9CFF640D4C8A0

Query result

Key Value
FileName./usr/lib/x86_64-linux-gnu/cmake/boost_fiber-1.71.0/libboost_fiber-variant-static.cmake
FileSize1999
MD5E9A7BCF921A113ACE300393B6F0F1E88
SHA-177EE4817A5498C49FAB9F8C968D9CFF640D4C8A0
SHA-25660DEA583645786A54EB181E040717F6F09F8DBDB2A2CFD17413CFA3E50276459
SSDEEP24:8mp7SiFT+ZrfQdZRtIQ+wlnw2rHn0GTE0MDoxy8l3eIRfJNA6UjKk0IFRAwZD95o:v2ZcdZRt7tdJTE/xE/NUBKID9+d
TLSHT1E94113A1FE856888D3C7C902BED2B11493D7AEA56750076CFB6CD1AAC1F482D409737B
hashlookup:parent-total9
hashlookup:trust95

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Parents (Total: 9)

The searched file hash is included in 9 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize271952
MD57E3C53BCBD59DEB5B241603C81CF9D83
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b2
SHA-12082E4367CC19D1BBF71723058F1828D0D662214
SHA-256FA4C3781FEBCBC10932CF2A14384004B187473C1BD284808ACB8F78CB15C0020
Key Value
FileSize237268
MD5948D17886BBCA2576DB750D8854D1FA4
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-6ubuntu11
SHA-1A54454119C36E15681291123FC6DBD11840C0118
SHA-2561D7B717D47C7E779B27D069DB95AB07280820AB9F7A553F29481B9E0BBEC5DDE
Key Value
FileSize237208
MD56D4E73E79E6B3C2AB2F4F41682EFFD23
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-6ubuntu9
SHA-1918CAD8BAC2D5E9A678E6B3511F96DD18D6CFC6C
SHA-25679FFB4E660A5478FD35F792F8F3CD5BDC2FF0547165A70F509E231E48D60E7B0
Key Value
FileSize270784
MD5DDE2B0538B23F5C7976C33E81FF1F38E
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b2
SHA-1CF28349C9A51BC4646DC6298F675885ED52737D6
SHA-256D04DCCCE3C69D47696E77E20DCA892179967C565AA7ED3FBEDBA949DAD070BD5
Key Value
FileSize266240
MD554753ADE97495649777988F7F4A22CF6
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b2
SHA-1210D850379610237264F959DCEC885AFF09FC3E3
SHA-2562E14E01E72350643FC0F71EEA3E79C21B901B431E918E845701C229ED924E791
Key Value
FileSize267388
MD5C878D39FD0C097D36186D3CF56569252
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b2
SHA-120BD2E0EC0CF16126F6130B6D397A6DDB95CA763
SHA-256ED1CD7DC0227E225C4FB2986FF024A25AC37D45678A7C48EE926A0E88B62F40A
Key Value
FileSize266260
MD5E7BDAF2DE2CF77DD9F242926FA6B6096
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b2
SHA-1C3EBF01945216F0AF23E13F36E59E353DE57C756
SHA-256306F297B60839920F25C0F7426610F93C45F3648012288A8DC56A248E63FA0DA
Key Value
FileSize267340
MD54BE1AEBF3CB888B4C845B9543807AE73
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b1
SHA-129B4A737BF0DB8E1217726636676A37BBE82A57E
SHA-25611381D651400FEE8BCC4BAD27866F721FE4337C818F901388955740589A24ABC
Key Value
FileSize266348
MD5412F8C270FEF13FFE098863319FC188E
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-fiber1.71-dev
PackageSectionlibdevel
PackageVersion1.71.0-7+b1
SHA-1F78C5DC35D8ACAB70971F1920C8A084B1C9DBDAD
SHA-256435C3A8A597C011920D25FB7DE22E5A0BD949F03DCCB58EE2BE9B3FF384E8248