Package: elpa-macaulay2 Architecture: all Version: 1.26.05-1~bpo11+1 Multi-Arch: foreign Section: editors Source: macaulay2 Maintainer: Debian Math Team Installed-Size: 243 Depends: dh-elpa-helper, emacsen-common Recommends: emacs Filename: bullseye/elpa-macaulay2_1.26.05-1~bpo11+1_all.deb Size: 67276 SHA256: 13523ed3c49fb3f806eac8fe52848d4319a96555abc667c88f71087f5d88b168 SHA512: b228c34cd9398114aad1f834e2a868059f02dcdd8530df7d699393d5380bdc479cebced865b1d5d1330148335f13cd9b1a5876141e7d7d4c1b61408fd0885795 Homepage: http://macaulay2.com Description: Software system for algebraic geometry research (Emacs package) Macaulay 2 is a software system for algebraic geometry research, written by Daniel R. Grayson and Michael E. Stillman. Based on Groebner bases, it provides algorithms for computing homological invariants of rings and modules. . This package contains the modes for running Macaulay2 within Emacs and editing Macaulay2 code. Package: libflint-arb-dev Architecture: amd64 Version: 1:2.22.1-3~bpo11+1 Multi-Arch: same Priority: optional Section: libdevel Source: flint-arb Maintainer: Debian Math Team Installed-Size: 363 Depends: libflint-arb2 (= 1:2.22.1-3~bpo11+1), libflint-dev Suggests: libflint-arb-doc Filename: bullseye/libflint-arb-dev_2.22.1-3~bpo11+1_amd64.deb Size: 44416 SHA256: ec37b0f803410b12253e0ae0c57057862cec1a5f3ce7f54e6527c009a0596809 SHA512: c758cdf9b1d4791c3113e6a9047ac3d1d0436ac87bec467871b8cd1a164b925b6e67e14b9284a0a108b2f8b8fe5bf27b5d81f37cd79f93ecf73b063dba5e295c Homepage: https://github.com/fredrik-johansson/arb Description: C library for arbitrary-precision ball arithmetic, development files FLINT-ARB is a C library for high-performance arbitrary-precision floating-point ball (mid-rad interval) arithmetic. It supports complex numbers, polynomials, matrices, and evaluation of special functions, all with rigorous error bounding. . This package contains the development files. Package: libflint-arb-dev Architecture: arm64 Version: 1:2.22.1-3~bpo11+1 Multi-Arch: same Priority: optional Section: libdevel Source: flint-arb Maintainer: Debian Math Team Installed-Size: 363 Depends: libflint-arb2 (= 1:2.22.1-3~bpo11+1), libflint-dev Suggests: libflint-arb-doc Filename: bullseye/libflint-arb-dev_2.22.1-3~bpo11+1_arm64.deb Size: 44408 SHA256: e005ee1e9902d5929f60d0f68808a0d736830a6c9ef67dc614b82025386c1cf3 SHA512: 3c9215ad6fa631eb67528c489193297d1b432c18061e70d249530cbacab53090f55c2cf5fb2c184d29dbfea18df868563a398fb753810a553bb820776bd54d0b Homepage: https://github.com/fredrik-johansson/arb Description: C library for arbitrary-precision ball arithmetic, development files FLINT-ARB is a C library for high-performance arbitrary-precision floating-point ball (mid-rad interval) arithmetic. It supports complex numbers, polynomials, matrices, and evaluation of special functions, all with rigorous error bounding. . This package contains the development files. Package: libflint-arb-doc Architecture: all Version: 1:2.22.1-3~bpo11+1 Multi-Arch: foreign Priority: optional Section: doc Source: flint-arb Maintainer: Debian Math Team Installed-Size: 5221 Depends: libjs-sphinxdoc (>= 2.4.3-5~) Filename: bullseye/libflint-arb-doc_2.22.1-3~bpo11+1_all.deb Size: 630480 SHA256: e089d9302634cdbf6d0cb37fc3d218b3b6afa81990bb0416038d045984e18e7d SHA512: 295a7b624f0a05313805a6c930a58d95c35b7ce9e35cf65398e1e7c38a366200115c68343bd0ec0e20ecde5d6523a14cdef535b358ae289bb590c65aba724463 Homepage: https://github.com/fredrik-johansson/arb Description: C library for arbitrary-precision ball arithmetic, documentation FLINT-ARB is a C library for high-performance arbitrary-precision floating-point ball (mid-rad interval) arithmetic. It supports complex numbers, polynomials, matrices, and evaluation of special functions, all with rigorous error bounding. . This package contains the documentation. Package: libflint-arb2-dbgsym Architecture: amd64 Version: 1:2.22.1-3~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: flint-arb Maintainer: Debian Math Team Installed-Size: 4733 Depends: libflint-arb2 (= 1:2.22.1-3~bpo11+1) Filename: bullseye/libflint-arb2-dbgsym_2.22.1-3~bpo11+1_amd64.deb Size: 4639216 SHA256: cac6ec2112a1eef0286966116c1cbe21f858a2a67c71fcfeff53b75bd9d07152 SHA512: 3485edba5178ac663e22fbf3bbc93bc805cdb103cbed40ed419e0ebaa338662246e0b6dafd5c45e801eb2b600c4c7c7b8aaef2a55dcc7261ce0571ac557f22b7 Description: debug symbols for libflint-arb2 Build-Ids: 0df6eedbda5a32073bfcecd6129f1f3b812a09d9 Package: libflint-arb2-dbgsym Architecture: arm64 Version: 1:2.22.1-3~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: flint-arb Maintainer: Debian Math Team Installed-Size: 4896 Depends: libflint-arb2 (= 1:2.22.1-3~bpo11+1) Filename: bullseye/libflint-arb2-dbgsym_2.22.1-3~bpo11+1_arm64.deb Size: 4760676 SHA256: d4eacb092bb17154c3b51ee10b85ce38fc4c6263b3395bd4d3799b9fe75e9d53 SHA512: 20aedfa44ae042f257924d8532793de8cc5f49956141d44ba4ce256ab2855b6c1f17cacac0600f910f35212154641a59e683aa95934f306ee8a361385e6aedba Description: debug symbols for libflint-arb2 Build-Ids: 39e6a7db513cc192ac321e2167c8d874ba1363fe Package: libflint-arb2 Architecture: amd64 Version: 1:2.22.1-3~bpo11+1 Multi-Arch: same Priority: optional Section: libs Source: flint-arb Maintainer: Debian Math Team Installed-Size: 2952 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libmpfr6 (>= 4.0.0) Filename: bullseye/libflint-arb2_2.22.1-3~bpo11+1_amd64.deb Size: 1192828 SHA256: 880817416c0d4aa43307d01df2163aa43f207a8483c0cac5945773f9fa1cce92 SHA512: 5064e7bfff48290642415f41db098ef961666dd3b692fa72d804cb1400224efe36393508e190ffd089b0549414b58c127c5c88458fe36aadbf602bc28b5e9231 Homepage: https://github.com/fredrik-johansson/arb Description: C library for arbitrary-precision ball arithmetic, shared library FLINT-ARB is a C library for high-performance arbitrary-precision floating-point ball (mid-rad interval) arithmetic. It supports complex numbers, polynomials, matrices, and evaluation of special functions, all with rigorous error bounding. . This package contains the shared library. Package: libflint-arb2 Architecture: arm64 Version: 1:2.22.1-3~bpo11+1 Multi-Arch: same Priority: optional Section: libs Source: flint-arb Maintainer: Debian Math Team Installed-Size: 2648 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libmpfr6 (>= 4.0.0) Filename: bullseye/libflint-arb2_2.22.1-3~bpo11+1_arm64.deb Size: 1115276 SHA256: ab295bc792ad3245e8dfc070c5661d3faf817909a9c051fba6698cf892db1bb8 SHA512: b84d789eb9d7f9957a559a473a1e829677030633de2ae7ddb2588cc7ed721718e278334769430d4bb3a538538a88fd52acbf1e1245de686d1d86d6ba787e5d7c Homepage: https://github.com/fredrik-johansson/arb Description: C library for arbitrary-precision ball arithmetic, shared library FLINT-ARB is a C library for high-performance arbitrary-precision floating-point ball (mid-rad interval) arithmetic. It supports complex numbers, polynomials, matrices, and evaluation of special functions, all with rigorous error bounding. . This package contains the shared library. Package: libmathicgb-dev Architecture: amd64 Version: 1.2-1~bpo11+1 Multi-Arch: same Section: libdevel Source: mathicgb Maintainer: Debian Math Team Installed-Size: 2840 Depends: libmathicgb0t64 (= 1.2-1~bpo11+1) Filename: bullseye/libmathicgb-dev_1.2-1~bpo11+1_amd64.deb Size: 395976 SHA256: d4f5bd977eeaff21b30804c5ec2024f9d26038ace284f28bf05fe024858db081 SHA512: 203101fb3076a33d29824d244bdbfc13a50a044d68853fe2a4528a701b612f5357b58aa6c6ed92a287d5074a203c4d44e5006bb71e1c2f1255be406dd3d17023 Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (developer tools) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the developer tools. Package: libmathicgb-dev Architecture: arm64 Version: 1.2-1~bpo11+1 Multi-Arch: same Section: libdevel Source: mathicgb Maintainer: Debian Math Team Installed-Size: 2855 Depends: libmathicgb0t64 (= 1.2-1~bpo11+1) Filename: bullseye/libmathicgb-dev_1.2-1~bpo11+1_arm64.deb Size: 387868 SHA256: a5a28246fd0f1c71db1eae888ebb5cc606053663d26334de3ec6c2ac9d4e22e9 SHA512: 3658e214ef49a492ee894325daf4e8871f0d4a21119bc053a574eb17696c3b999129ccb9a272e7f9b931bc1360ae6b7f0c77dacacb9bf58a69788de79786b812 Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (developer tools) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the developer tools. Package: libmathicgb0-dbgsym Architecture: amd64 Version: 1.0~git20220621-2~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: mathicgb Maintainer: Debian Math Team Installed-Size: 6565 Depends: libmathicgb0 (= 1.0~git20220621-2~bpo11+1) Filename: bullseye/libmathicgb0-dbgsym_1.0~git20220621-2~bpo11+1_amd64.deb Size: 6419776 SHA256: 9a15e6cc711c0617ab9f109457951b6a8ef2baf1a7f266e1760f5e420bf68343 SHA512: 287d6d154de6f1754dad1cf1e42ae084e2d00821997fa0473561681d46072e718d9a4776b6d6108a2218c4e6809f9cefb8e4c714ab141a4d23b0fa47cda9083e Description: debug symbols for libmathicgb0 Build-Ids: 0d02137a6080e9400daca9f9ebb0dd0cc674eebe Package: libmathicgb0 Architecture: amd64 Version: 1.0~git20220621-2~bpo11+1 Multi-Arch: same Priority: optional Section: libs Source: mathicgb Maintainer: Debian Math Team Installed-Size: 1032 Depends: libc6 (>= 2.17), libgcc-s1 (>= 3.0), libmathic0v5 (>= 1.0~git20200526), libmemtailor0 (>= 1.0~git20130809), libstdc++6 (>= 5.2), libtbb2 (>= 2017~U7) Filename: bullseye/libmathicgb0_1.0~git20220621-2~bpo11+1_amd64.deb Size: 264356 SHA256: 30b26f5eedb1effaff90a2541a725197ef0ddc3a1971b3d245be83dc2f575b9c SHA512: 34d71c3bce860a0f6a056481e2e11b965000aedb0768af46b7e2c4e5b20266630d22be755eb57769c4322be95485fbf03fd445d6a1860b23e076a314cfbd743d Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (runtime library) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the runtime library. Package: libmathicgb0t64-dbgsym Architecture: amd64 Version: 1.2-1~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: mathicgb Maintainer: Debian Math Team Installed-Size: 6586 Depends: libmathicgb0t64 (= 1.2-1~bpo11+1) Filename: bullseye/libmathicgb0t64-dbgsym_1.2-1~bpo11+1_amd64.deb Size: 6442284 SHA256: 50e7bfdfba3a451cc67eb0156a6779ace8be6b242dad212494e2cb32fc926c78 SHA512: d8f43760e80eb33a9d89e74dd4331d9bc6e0005231544f00fc4c7dd579ec4640105ea169372df2084c2962f020568f04610f45074de45dbf0f7a3c1c19e425d0 Description: debug symbols for libmathicgb0t64 Build-Ids: 0e7194f4dc2bc4a903fbb85e9b66b2a0f11653e2 Package: libmathicgb0t64-dbgsym Architecture: arm64 Version: 1.2-1~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: mathicgb Maintainer: Debian Math Team Installed-Size: 6505 Depends: libmathicgb0t64 (= 1.2-1~bpo11+1) Filename: bullseye/libmathicgb0t64-dbgsym_1.2-1~bpo11+1_arm64.deb Size: 6344272 SHA256: a12ffe1a97227f5a08b103f4ed8270aa598e263c6c4652a14c19624b49b0b229 SHA512: 88e0c0517f0daedaa25931eee338a6ec78cfb85fbfb57a62be6cb645b3c4c89610388e824be31d8bf59790e4788a8ae557fab5906b41c92667863d9757852e0f Description: debug symbols for libmathicgb0t64 Build-Ids: ce95be4f2a89055ec92bf3135640afba6ce09786 Package: libmathicgb0t64 Architecture: amd64 Version: 1.2-1~bpo11+1 Multi-Arch: same Section: libs Source: mathicgb Maintainer: Debian Math Team Installed-Size: 1032 Depends: libc6 (>= 2.17), libgcc-s1 (>= 3.0), libmathic0v5 (>= 1.0~git20200526), libmemtailor0 (>= 1.0~git20130809), libstdc++6 (>= 5.2), libtbb2 (>= 2017~U7) Breaks: libmathicgb0 (<< 1.2-1~bpo11+1) Replaces: libmathicgb0 Filename: bullseye/libmathicgb0t64_1.2-1~bpo11+1_amd64.deb Size: 264768 SHA256: 6097ea28a2a6c8dd88a77045ce632833cc307f37fe388ddd4178812be5c9c905 SHA512: 67814ff62c0d7955d7abf4fd5945ae46394a35b010bd01a96ec02adc47b089f2d341b4eb5ca0b241e73018416616199748ed683105a4cb8157ac15839030a27e Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (runtime library) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the runtime library. Package: libmathicgb0t64 Architecture: arm64 Version: 1.2-1~bpo11+1 Multi-Arch: same Section: libs Source: mathicgb Maintainer: Debian Math Team Installed-Size: 979 Depends: libc6 (>= 2.17), libgcc-s1 (>= 3.0), libmathic0v5 (>= 1.0~git20200526), libmemtailor0 (>= 1.0~git20130809), libstdc++6 (>= 5.2), libtbb2 (>= 2020.3) Breaks: libmathicgb0 (<< 1.2-1~bpo11+1) Replaces: libmathicgb0 Filename: bullseye/libmathicgb0t64_1.2-1~bpo11+1_arm64.deb Size: 243348 SHA256: e8c5010249be2562829d6e8a2b9b706fbc22d3b32c3e20d6eef4c2f69cede236 SHA512: babf964f369cdb4326cf73e5b541b7bcb82ac9f8c21329d5f64a2027d8bb9f14c744e4f093d70494f116945c63aa97ac55b75648f3a26eff497899039147343b Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (runtime library) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the runtime library. Package: libmsolve-dev Architecture: amd64 Version: 0.9.5-1~bpo11+1 Multi-Arch: same Section: libdevel Source: msolve Maintainer: Debian Math Team Installed-Size: 808 Depends: libmsolve3 (= 0.9.5-1~bpo11+1) Filename: bullseye/libmsolve-dev_0.9.5-1~bpo11+1_amd64.deb Size: 210080 SHA256: 111ec3eba08f299ca9cb0f7fa91443fa4d503e4c655e049dffafb15baed6fe1e SHA512: b8e05e0bbdc96a4511481a6d32791377048db6be93a1a47885a5bf08e0a3ca9af52bfc7a74ef9e6f82248520276886f2a5fec07d2d20c47a2ae6b432c622dda5 Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems (development) msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the development files for the library. Package: libmsolve-dev Architecture: arm64 Version: 0.9.5-1~bpo11+1 Multi-Arch: same Section: libdevel Source: msolve Maintainer: Debian Math Team Installed-Size: 787 Depends: libmsolve3 (= 0.9.5-1~bpo11+1) Filename: bullseye/libmsolve-dev_0.9.5-1~bpo11+1_arm64.deb Size: 201972 SHA256: e213e8ae005d88c5c50810eb1207afc846a47eff9ea656cbbc3d862f682bdbd0 SHA512: 25aa984125f482c8f723105c3ab5f384b33892abbf9b0af079b53301ac530b569f52bd363145650969f088fd7d6f7bc1e5e1e450508e57a267250b76b69b3f5f Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems (development) msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the development files for the library. Package: libmsolve0-dbgsym Architecture: amd64 Version: 0.7.3-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: msolve Maintainer: Debian Math Team Installed-Size: 716 Depends: libmsolve0 (= 0.7.3-1~bpo11+1) Filename: bullseye/libmsolve0-dbgsym_0.7.3-1~bpo11+1_amd64.deb Size: 686368 SHA256: ad9d320c0d9e0febee6a4723a5bc3f533bef4fb0f1024d19edc53b5edc78e328 SHA512: ca746be239d069be81a4aaedd766bd5ff145089965f95fff93765e228b843b8d7f9bcceed2b718de3ff4fe4e57ded0112c130f92732b7edd344459fd4feac512 Description: debug symbols for libmsolve0 Build-Ids: 1e060e5cec896d066c4ba2baa9bb95762c809b84 4666fd4c964b80e97aa08eba029e5051b89eb1d7 Package: libmsolve0 Architecture: amd64 Version: 0.7.3-1~bpo11+1 Priority: optional Section: libs Source: msolve Maintainer: Debian Math Team Installed-Size: 513 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libgomp1 (>= 6) Filename: bullseye/libmsolve0_0.7.3-1~bpo11+1_amd64.deb Size: 197792 SHA256: a3051f71e297a56baf2c2e6b1dcefd8bec5d18d1e84a67280c3cb263ef9e2981 SHA512: e7f496b080128a37e364842b8996cdd1e4632844cd89fdd6d620a98d7ffa3d860f27af17b7a4ca2e14497a166058d9c703db5298bf562502833175f0d362e846 Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems (shared library) msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the shared library. Package: libmsolve3-dbgsym Architecture: amd64 Version: 0.9.5-1~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: msolve Maintainer: Debian Math Team Installed-Size: 676 Depends: libmsolve3 (= 0.9.5-1~bpo11+1) Filename: bullseye/libmsolve3-dbgsym_0.9.5-1~bpo11+1_amd64.deb Size: 647124 SHA256: 9b80ce218cfccc8fd7c7ac9c7f7da7ccc938690343bb820c0a62ea7e7646272c SHA512: 08c7d94cf64a2f1f9ed45fefb4f65b8bf4863bf7f6968403403cee22ac8725f33bd174952eaeae946fda6cc93d811bef1eba0fd8ba71199faed219375da7a5f2 Description: debug symbols for libmsolve3 Build-Ids: 8e8ef2c2c93c0598c22aa54726e8125f68a4148c c39590062e5351728d6bac4d799017dd86b27820 Package: libmsolve3-dbgsym Architecture: arm64 Version: 0.9.5-1~bpo11+1 Auto-Built-Package: debug-symbols Multi-Arch: same Priority: optional Section: debug Source: msolve Maintainer: Debian Math Team Installed-Size: 673 Depends: libmsolve3 (= 0.9.5-1~bpo11+1) Filename: bullseye/libmsolve3-dbgsym_0.9.5-1~bpo11+1_arm64.deb Size: 640796 SHA256: 9b22b8243692dd1b8736fe4d149bc8d2c3b33b6f8f7491afe45ff3ce8a08028d SHA512: a879f2f6a53dc8910add68aafa00a4d178737a48067563bbe748e7b6b824b395a898ada648e50187387d355a902c9140aaf50ff778109b5a9c558cd05379669a Description: debug symbols for libmsolve3 Build-Ids: 9e5a647590ea776c248bdc9a77ec803794303fcc fa4e08ced5c3225318213205a3f3459a58ed42f4 Package: libmsolve3 Architecture: amd64 Version: 0.9.5-1~bpo11+1 Multi-Arch: same Section: libs Source: msolve Maintainer: Debian Math Team Installed-Size: 501 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libgomp1 (>= 6) Filename: bullseye/libmsolve3_0.9.5-1~bpo11+1_amd64.deb Size: 193748 SHA256: ff3a7aa61fb66a435a9f1be5203ee0a0d641a7c84ad09ee189ea39b746da9ac1 SHA512: 728474dc389f04f6495934acea55abc8d95fd8f8066c81e73b76ead0ad2bed5c78a27673f52870fd9bfdd4cb4885229f0f22a7a13a0a2fe9010c22b1683515f5 Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems (shared library) msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the shared library. Package: libmsolve3 Architecture: arm64 Version: 0.9.5-1~bpo11+1 Multi-Arch: same Section: libs Source: msolve Maintainer: Debian Math Team Installed-Size: 452 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libgomp1 (>= 6) Filename: bullseye/libmsolve3_0.9.5-1~bpo11+1_arm64.deb Size: 178168 SHA256: abc6c5c08b438520e17f02a7dbada4f7a81f99ce9cab7d3170df417f3c64562b SHA512: 2f8929241c73287a0e20e10b856574d14f72ab477a2afed1af2e101ef076f55900268046c1a93d4da0ff0fd6127d0111458e7bd76186a8b34bbd2dd741bb61dc Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems (shared library) msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the shared library. Package: macaulay2-common Architecture: all Version: 1.26.05-1~bpo11+1 Multi-Arch: foreign Section: math Source: macaulay2 Maintainer: Debian Math Team Installed-Size: 321235 Filename: bullseye/macaulay2-common_1.26.05-1~bpo11+1_all.deb Size: 34387080 SHA256: 5eb1f6fb3709282b91af2226751d541ed06f613be1d9fe1e7ad0c23584110923 SHA512: 85ab3bd829811762ebaa61a417833f3f244c88f595964d1fcf7dd7f082938afbbfd6c4c7b1794702ab92fa874037b663ba094c5c6ca0009f6ee070fe7346f3c1 Homepage: http://macaulay2.com Description: Software system for algebraic geometry research (common files) Macaulay 2 is a software system for algebraic geometry research, written by Daniel R. Grayson and Michael E. Stillman. Based on Groebner bases, it provides algorithms for computing homological invariants of rings and modules. . This package contains the architecture independent portion of Macaulay2, and is normally installed automatically when one of the architecture dependent packages is installed. Package: macaulay2-dbgsym Architecture: amd64 Version: 1.26.05-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: macaulay2 Maintainer: Debian Math Team Installed-Size: 51030 Depends: macaulay2 (= 1.26.05-1~bpo11+1) Filename: bullseye/macaulay2-dbgsym_1.26.05-1~bpo11+1_amd64.deb Size: 49378736 SHA256: 374d2e8023b661b04c338d6e30575c5d61c663a8e4aef0e814f15beb490b5f3e SHA512: 743e80ac22f8ff0b9ce0868723bf0b947e88d1bae5b4db16fe7154d43b517804ca09d5cdd073e57f01b9a1904b883468dc2306ceca40474e9a84f78973383094 Description: debug symbols for macaulay2 Build-Ids: 4a8203a008b345354c3ea59f56e8fa8a8b16f531 Package: macaulay2-dbgsym Architecture: arm64 Version: 1.26.05-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: macaulay2 Maintainer: Debian Math Team Installed-Size: 50403 Depends: macaulay2 (= 1.26.05-1~bpo11+1) Filename: bullseye/macaulay2-dbgsym_1.26.05-1~bpo11+1_arm64.deb Size: 48751400 SHA256: 22dc6a564d619722a9df6d4d0c986179a053107817c8884bbb5942e3574ee715 SHA512: 5789846b75f8d047020645ebcaa86c44925fcf11e2e15464cb82a37d0a0beb75451a0a3ac2a2ebaaf736086d753066ecf768e471490345afb24d3bf8c925bb61 Description: debug symbols for macaulay2 Build-Ids: 8176007feb2498f114cd3a64a6ab6f4fd0c9385f Package: macaulay2 Architecture: amd64 Version: 1.26.05-1~bpo11+1 Section: math Maintainer: Debian Math Team Installed-Size: 8080 Depends: gdbmtool, macaulay2-common (= 1.26.05-1~bpo11+1), normaliz, singular-data, libblas3 | libblas.so.3, libboost-regex1.74.0-icu67, libboost-stacktrace1.74.0 (>= 1.74.0), libc6 (>= 2.29), libeantic0 (>= 0.1.2), libffi7 (>= 3.3~20180313), libflint-2.6.3 (>= 2.6.3), libflint-arb2, libfplll7 (>= 5.4.0), libfrobby0 (>= 0.9.1), libgc1 (>= 1:8.0), libgcc-s1 (>= 3.0), libgdbm6 (>= 1.16), libgivaro9 (>= 4.0.2-8~), libgmp10, libgmpxx4ldbl (>= 2:6.2.1+dfsg), libjansson4 (>= 2.10), liblapack3 | liblapack.so.3, libmathic0v5 (>= 1.0~git20200526), libmathicgb0t64 (>= 1.2), libmemtailor0 (>= 1.0~git20160302), libmpfi0 (>= 1.5.1), libmpfr6 (>= 4.0.0), libmps3 (>= 3.1.8), libnormaliz3 (>= 3.8.9+ds), libntl43 (>= 11.4.3), libpython3.9 (>= 3.9.1), libreadline8 (>= 6.0), libsingular4m1, libstdc++6 (>= 5.2), libtbb2 (>= 2017~U7), libxml2 (>= 2.9.0) Recommends: 4ti2, cohomcalg, coinor-csdp, elpa-macaulay2 (= 1.26.05-1~bpo11+1), gfan, info, lrslib, msolve, nauty, texlive-latex-base, topcom, www-browser, xdg-utils, xterm Suggests: bergman, dot2tex, fig2dev, graphviz, pdf-viewer, phcpack, polymake, qepcad, r-base, sdpa Filename: bullseye/macaulay2_1.26.05-1~bpo11+1_amd64.deb Size: 2368676 SHA256: ba724c3af119874697d0df30d318abd246a605abb33be81cab6ba8f0e1a8a555 SHA512: c7f4037cca8d7e0e30211c3c8e8b19575d84b50dd3b4a2ce63c33af673ef8ab79baac119bf0ee0b65bc41afe620991a3bb5464d814162106fe4ae4db3c00118a Homepage: http://macaulay2.com Description: Software system for algebraic geometry research Macaulay 2 is a software system for algebraic geometry research, written by Daniel R. Grayson and Michael E. Stillman. Based on Groebner bases, it provides algorithms for computing homological invariants of rings and modules. . This package contains the architecture dependent portion of Macaulay2. Package: macaulay2 Architecture: arm64 Version: 1.26.05-1~bpo11+1 Section: math Maintainer: Debian Math Team Installed-Size: 7784 Depends: gdbmtool, macaulay2-common (= 1.26.05-1~bpo11+1), normaliz, singular-data, libblas3 | libblas.so.3, libboost-regex1.74.0-icu67, libboost-stacktrace1.74.0 (>= 1.74.0), libc6 (>= 2.29), libeantic0 (>= 0.1.2), libffi7 (>= 3.3~20180313), libflint-2.6.3 (>= 2.6.3), libflint-arb2, libfplll7 (>= 5.4.0), libfrobby0 (>= 0.9.1), libgc1 (>= 1:8.0), libgcc-s1 (>= 3.0), libgdbm6 (>= 1.16), libgivaro9 (>= 4.0.2-8~), libgmp10, libgmpxx4ldbl (>= 2:6.2.1+dfsg), libjansson4 (>= 2.10), liblapack3 | liblapack.so.3, libmathic0v5 (>= 1.0~git20200526), libmathicgb0t64 (>= 1.2), libmemtailor0 (>= 1.0~git20160302), libmpfi0 (>= 1.5.1), libmpfr6 (>= 4.0.0), libmps3 (>= 3.1.8), libnormaliz3 (>= 3.8.9+ds), libntl43 (>= 11.4.3), libpython3.9 (>= 3.9.1), libreadline8 (>= 6.0), libsingular4m1, libstdc++6 (>= 5.2), libtbb2 (>= 2020.3), libxml2 (>= 2.9.0) Recommends: 4ti2, cohomcalg, coinor-csdp, elpa-macaulay2 (= 1.26.05-1~bpo11+1), gfan, info, lrslib, msolve, nauty, texlive-latex-base, topcom, www-browser, xdg-utils, xterm Suggests: bergman, dot2tex, fig2dev, graphviz, pdf-viewer, phcpack, polymake, qepcad, r-base, sdpa Filename: bullseye/macaulay2_1.26.05-1~bpo11+1_arm64.deb Size: 2118224 SHA256: 7a4106fe226ebc9ffbc27f9ec235ccb1c3b9520f13e4ab49ced90d28a262d92d SHA512: 6ff32a2c119689eeb37346ac50f3d7617dd6d6a8c5516162b0c0ec7e506387f47c64cea87f5107f658d03e25cd766fddb194680b4a956fce41ca2be62eb32a28 Homepage: http://macaulay2.com Description: Software system for algebraic geometry research Macaulay 2 is a software system for algebraic geometry research, written by Daniel R. Grayson and Michael E. Stillman. Based on Groebner bases, it provides algorithms for computing homological invariants of rings and modules. . This package contains the architecture dependent portion of Macaulay2. Package: mathicgb-dbgsym Architecture: amd64 Version: 1.2-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: mathicgb Maintainer: Debian Math Team Installed-Size: 963 Depends: mathicgb (= 1.2-1~bpo11+1) Filename: bullseye/mathicgb-dbgsym_1.2-1~bpo11+1_amd64.deb Size: 942036 SHA256: 4cc781cfe5f6f068657124ee6481ebde9867a9fd95849e3e9f5520cdc72d8bd2 SHA512: 8a8f7762ffc6d71b2e1a5753369720266badba7d7d0893fd71d1a2e674c2565f255b6caec8465fe8a0f496cf43efe37e0b2ef50f7c70232e3927e3dc84274e6b Description: debug symbols for mathicgb Build-Ids: d891aec120900c33d3a8707ad905b76ef245d5ec Package: mathicgb-dbgsym Architecture: arm64 Version: 1.2-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: mathicgb Maintainer: Debian Math Team Installed-Size: 951 Depends: mathicgb (= 1.2-1~bpo11+1) Filename: bullseye/mathicgb-dbgsym_1.2-1~bpo11+1_arm64.deb Size: 926220 SHA256: b9995816650959eabb41c878eb61b7a055cc2cb43889634d01f17064e4d4c73b SHA512: a79f10a12476cec15dc7307acd48341bb168ffcebb9e739ca1fc99a183407eab813230df8f4d41dd8620002701c43cef426602293204856ff580daa4dc235b60 Description: debug symbols for mathicgb Build-Ids: c9acc583b4859bf462a68afef38c9b5daeb32cb9 Package: mathicgb Architecture: amd64 Version: 1.2-1~bpo11+1 Multi-Arch: foreign Section: math Maintainer: Debian Math Team Installed-Size: 148 Depends: libc6 (>= 2.14), libgcc-s1 (>= 3.0), libmathic0v5 (>= 1.0~git20200526), libmathicgb0t64 (>= 1.2), libmemtailor0 (>= 1.0~git20130809), libstdc++6 (>= 5.2), libtbb2 (>= 2017~U7) Filename: bullseye/mathicgb_1.2-1~bpo11+1_amd64.deb Size: 48704 SHA256: 511ea0293b8085e18f996ff385c4240dc0e19880f32d1c6a951056d99fe798c4 SHA512: c58ca3c72a3bd5c081cbc3f602bc353bfe98c403a290306a82e034376336b0f8f0abd2d63110698729fff7c7c4ccd26317103f887531e9402a08f06ba9719924 Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (command line tool) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the command line tool. Package: mathicgb Architecture: arm64 Version: 1.2-1~bpo11+1 Multi-Arch: foreign Section: math Maintainer: Debian Math Team Installed-Size: 132 Depends: libc6 (>= 2.17), libgcc-s1 (>= 3.0), libmathic0v5 (>= 1.0~git20200526), libmathicgb0t64 (>= 1.2), libmemtailor0 (>= 1.0~git20130809), libstdc++6 (>= 5.2), libtbb2 (>= 2020.3) Filename: bullseye/mathicgb_1.2-1~bpo11+1_arm64.deb Size: 44440 SHA256: 92b5274f730abf91c2936b16912ff96d79c241a166e3d25d1b836ea52ae50979 SHA512: 7f166df4d95039f37277c30f821d1b0e9f5e2bb8f1903153da67f801232f5e61c53b22ab900c89638a17257978c93d46d0fe92c27df95a9db2cfae770b8f5dc2 Homepage: https://github.com/Macaulay2/mathicgb Description: Compute Groebner bases (command line tool) Mathicgb is a program for computing Groebner basis and signature Groebner bases. Mathicgb is based on the fast data structures from mathic. . The paper "Practical Groebner Basis Computation" describes the algorithms in Mathicgb from a high level. It was presented at ISSAC 2012 and is available at http://arxiv.org/abs/1206.6940 . This package contains the command line tool. Package: msolve-dbgsym Architecture: amd64 Version: 0.9.5-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: msolve Maintainer: Debian Math Team Installed-Size: 397 Depends: msolve (= 0.9.5-1~bpo11+1) Filename: bullseye/msolve-dbgsym_0.9.5-1~bpo11+1_amd64.deb Size: 380488 SHA256: 04ad0680553a436c1c81c3e172aede5e6711cf586192f2a1e2257d03632ccf45 SHA512: 43f60bfc182751f4a095c97981a3075827892833a60759143f44f9688e586e17eeec7cf1622d4e55bba2059986aef912b0c411286d0c3e97804412ec7b26c69c Description: debug symbols for msolve Build-Ids: 91846eac65ab25f6c181bac2d4ac48aa1d8f1562 Package: msolve-dbgsym Architecture: arm64 Version: 0.9.5-1~bpo11+1 Auto-Built-Package: debug-symbols Priority: optional Section: debug Source: msolve Maintainer: Debian Math Team Installed-Size: 398 Depends: msolve (= 0.9.5-1~bpo11+1) Filename: bullseye/msolve-dbgsym_0.9.5-1~bpo11+1_arm64.deb Size: 379744 SHA256: 197be6bca93002615fb0b7b118346e28b0644ad3665c3a51f6b021bf846b2a14 SHA512: 035e1497b37866a34c1788062bd3f58125b18c2d5596e6bb18b0fd7cf6ac004afe88d2bd5acf8e5ab220e1a84af7e9c907d6c61ddac387d6b99adc7bb6eafbc7 Description: debug symbols for msolve Build-Ids: ada56f6e3091cddc1432089cf4e9198146307181 Package: msolve Architecture: amd64 Version: 0.9.5-1~bpo11+1 Section: math Maintainer: Debian Math Team Installed-Size: 770 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libgomp1 (>= 6), libmsolve3 (>= 0.7.0) Filename: bullseye/msolve_0.9.5-1~bpo11+1_amd64.deb Size: 583048 SHA256: 82debe0ed33e7d78cf29c4949b6fdaff4ddf7541ce23430164acba25f8a862c2 SHA512: 25d592f9dd93978fc28dae218e49b34b0aedccb681ee927dce911202edfb9dee5377045feb19c52163ce6e1ba6e808351a5bb26578790f4a53c7585e87c71036 Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the command line interface and documentation. Package: msolve Architecture: arm64 Version: 0.9.5-1~bpo11+1 Section: math Maintainer: Debian Math Team Installed-Size: 742 Depends: libc6 (>= 2.29), libflint-2.6.3 (>= 2.6.3), libgmp10, libgomp1 (>= 6), libmsolve3 (>= 0.7.0) Filename: bullseye/msolve_0.9.5-1~bpo11+1_arm64.deb Size: 570784 SHA256: 84f5932f6fab13869f239ab3e7dad6d88e70462475fb4dde9663c269ada236f1 SHA512: 7c8dc55c2b240130daba50a6b8cd91854a2e6b4489d363f4e565af513b29af5bd3e9eb76db444dbbb8c94d3277ae7782948d9da6ffa40062ecbfac198bccc1ef Homepage: https://msolve.lip6.fr/ Description: computer algebra algorithms for solving polynomial systems msolve is an open source C library implementing computer algebra algorithms for solving polynomial systems (with rational coefficients or coefficients in a prime field). . Currently, with msolve, you can basically solve multivariate polynomial systems. This encompasses: . * the computation of Groebner bases * real root isolation of the solutions to polynomial systems * the computation of the dimension and the degree of the solution set * and many other things you can do using msolve. . This package contains the command line interface and documentation.