Result for EDE0371B33533BC97BAE4370A8B46385AB188368

Query result

Key Value
FileName./usr/lib/mipsel-linux-gnu/cmake/boost_fiber-1.71.0/libboost_fiber-variant-static.cmake
FileSize1998
MD5D17B0B606F956DA87F777A3CFBEBD0B7
SHA-1EDE0371B33533BC97BAE4370A8B46385AB188368
SHA-2566274AEFC1C343EF70710FDDCA5B97B9DF3C4137499EA0207549980FB4FC8F84B
SSDEEP24:8mpPiHzFu+ZrfQdZRtIQ+wlnw2rHn0GTE0MDoxy8l3eIRfJNA6UjKk0IFRAwZD96:7ixZcdZRt7tdJTE/xE/NUBKID9+d
TLSHT10E4133A1FE852888D3C7C902BAD2B11492D3AEB56750076CFB6CD1A9C1F482D809737B
hashlookup:parent-total5
hashlookup:trust75

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Parents (Total: 5)

The searched file hash is included in 5 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize267248
MD53945CB5BD9B11913B4887E3F3CF30885
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
PackageVersion1.71.0-6~bpo10+1
SHA-12817D7F8828D229E38DB3804CEB1FC977568D6D4
SHA-256FFBEAAD2424CA8A01F66E51D7A9A54338D4CD5C30E8D2BAB56A7D14895FA1550
Key Value
FileSize265240
MD569241438A1B9D31A7D14499EF5980610
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
PackageVersion1.71.0-6~bpo10+1
SHA-1BB3D07883B886A0E1DEE9C71813B65D789CDBB79
SHA-256CF767E6C6F5B62E3C3A40BDD605722DCAFC66A918BE3657707DF74C0BC89222C
Key Value
FileSize267288
MD5E4FABACA9BCCEF3505B85A0CF0693C23
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
PackageVersion1.71.0-6~bpo10+1
SHA-1E869FDF2909ED58E85537296CFD2F863257A5A42
SHA-256E6F5F7964BB61BC5694E60D851272698D752A770FBAFB6EB3E423C066EB71A5A
Key Value
FileSize266424
MD5A077923B7E829CA383628646362AD42C
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
PackageVersion1.71.0-6~bpo10+1
SHA-11796F342CF11733383BB2EA7C83E0EB1E5BAE112
SHA-2560905190D4505D906E94FCA38CAB10EB56F2ECAEF3F456523610189C9CA5896B0
Key Value
FileSize265172
MD5A6225B2E77A23D2DA99F6E8A1B312673
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
PackageVersion1.71.0-6~bpo10+1
SHA-1161FC977EE811BEB93ABC2421BC35B5BA3ED9F83
SHA-2569014B722F39F96307C6E1D4CE93E2723038A01FACCCB865FA9A3ACAD55FCBBCC