tiny-bignum-c
gmp-wasm
tiny-bignum-c | gmp-wasm | |
---|---|---|
2 | 38 | |
410 | 12 | |
- | - | |
0.0 | 10.0 | |
12 months ago | over 3 years ago | |
C | C | |
The Unlicense | GNU General Public License v3.0 only |
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tiny-bignum-c
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How to calculate large factorial number in C ?
Large? Factorials get very large very quickly. Do you need pointers to a bignum library? https://github.com/kokke/tiny-bignum-c
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Library for arithmetic operations on integers represented by arrays
tiny-bignum-c looks what you want.... the code is also very small and hackable
gmp-wasm
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Sourcehut and Codeberg are both currently experiencing a DDoS attack
I wondered about Drew's "antagonism" last year when he claimed that Google was DDoS'ing Sourcehut, which is why sr.ht blacklisted the Go module mirror; see https://news.ycombinator.com/item?id=34310674 .
I concluded he was right after I read about ongoing problems with the GMP project, at https://gmplib.org/ : "The GMP servers has been under serious load due to a barrage of clone requests from Microsoft/Github. ... In effect, Microsoft's computer cloud performed a DDoS attack on the GMP servers. ... Our servers are fully available again, but that's the result of us adding all participating Microsoft network ranges to our firewall. We understand that we are far from the first project to take such measures against Github."
Also, you can't build projects like Sourcehut by being only an antagonist, and I can think of some pretty antagonistic CEOs of billion dollar companies.
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A Linear Algebra Trick for Computing Fibonacci Numbers Fast
There are "bignum" implementations for every language. Though I never tested the performance impact on closed-form Fibonacci when a defined double precision >64bit is used.
https://gmplib.org/
Your code has an accidentally quadratic runtime (instead of linear). Since the array is appended to, the code regularly increases the memory region and has to move all the previous data over.
You could pre-allocate the memory as n is known ahead.
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Under the hood: The Importance of sizeof in C and C++
Different data types can take up varying amounts of memory. Take an integer as an example, this data type usually takes up 4 bytes of memory (DWORD in x86 architecture), while a floating-point data type can take up 8 bytes (or more, depending on what compiler you are using, on that offers a lot of flexibility is GMP)
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Microsoft's GitHub under fire for DDoSing crucial open source project website
I also disagree, and they were DDOS, so technically Microsoft broke a law.
>Granlund was not entirely satisfied with Blacker's explanation, nor the implied feebleness of the project's server(s)
So, every project needs to have a multi-million USD server Farm ? GMP is probably pulled by various Linux distros and the BSDs, along with other Misc projects. So no need for a huge server farm.
For people who do not know what it is:
https://gmplib.org/
- The GMP library's repository is under attack by a single GitHub user
- The GMP library's website is under attack by a single GitHub user
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GMP servers are under DoS attack from Microsoft[-owned IP addresses]
The front page of https://gmplib.org/ has two other undated updates that the current server is too slow because of meltdown and they're going to replace with it with an epyc server in mid April.
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Having trouble with gmp library
Ive been trying to use the gmp library but I keep getting errors. Ive noticed that the last release was from 2020 and was wondering if there was any newer versions anywhere else. I'm currently running Fedora 38 and using VSC as my editor. This is the error I get:
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Top 10 largest GNU manuals
You also left out GNU Smalltalk, whose PDF manual is 138 pages, and GMP, whose PDF manual is 152 pages.
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How to deal with large numbers in c++?
If you are using the GCC, it was (probably) built with the GNU Multiple Precision Arithmetic Library. You just have to compile your program with the library specified like: g++ mycxxprog.cc -lgmpxx -lgmp where gmp is the GNU MP library and gmpxx contains the C++-specific functions.
What are some alternatives?
nim-stint - Stack-based arbitrary-precision integers - Fast and portable with natural syntax for resource-restricted devices.
snes-apu - A Super Nintendo audio unit emulator.
LibTomMath - LibTomMath is a free open source portable number theoretic multiple-precision integer library written entirely in C.
mathlib4 - The math library of Lean 4
arb - Arb has been merged into FLINT -- use https://github.com/flintlib/flint/ instead
ibig-rs - A big integer library in Rust with good performance.
arpra - Arpra is a C library for analyzing the propagation of numerical error in arbitrary precision IEEE-754 floating-point computations.
Random - Repository of Random, Useful, or Novel Functions
break_infinity.js - A replacement for decimal.js for incremental games who want to deal with very large numbers (bigger in magnitude than 1e308, up to as much as 1e(9e15) ) and want to prioritize speed over accuracy.
unmaintainable-code - A more maintainable, easier to share version of the infamous http://mindprod.com/jgloss/unmain.html
gmp-extensions - Extending GNU MP library.
Rust-CAS - Rust Computer Algebra library