| Книга | Страницы для поиска |
| Кормен Т., Лейзерсон Ч., Ривест Р. — Алгоритмы: построение и анализ | 195 |
| Рейнгольд Э., Нивергельт Ю., Део Н. — Комбинаторные алгоритмы: теория и практика | 57 |
| Гудрич М.Т., Тамассия Р. — Структуры данных и алгоритмы в Java | 443 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 138.B |
| Higham N. — Accuracy and stability of numerical algorithms | 18, 42 |
| Conte S.D., de Boor C. — Elementary numerical analysis - an algorithmic approach | 8 |
| Golub G.H., van Loan C.F. — Matrix Computations | 61 |
| Mughal K., Rasmussen R. — A Programmer's Guide to Java Certification: A Comprehesive Primer | |
| Bini D., Pan V.Y. — Polynomial and matrix computations. Fundamental algorithms. Vol.1 | 291 |
| Shampine L.F., Allen R.C., Pruess Jr.S. — Fundamentals of numerical computing | 5 |
| Watkins D. — Fundamentals of matrix computations | 140 |
| Hogben L. — Handbook of Linear Algebra | 37—11 to 37—12 |
| Johnston R. — Numerical methods, a software approach | 6 |
| Bowman K.O., Shenton L.R. — Continued Fractions in Statistical Applications | 214 |
| Patterson D.A., Hennessy J.L. — Computer Organization and Design: The Hardware/Software Interface | 192, CD3.10:5 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 138.B |
| Microsoft Corporation — Microsoft C Compiler for the MS-DOS Operating System. Run-Time Library Reference | 274, 436 |
| Higham N.J. — Accuracy and Stability of Numerical Algorithms | 16, 38 |
| Архангельский А.Я. — C++ Builder 6. Книга 1 | 3.1.4.4 |
| Knuth D.E. — The art of computer programming (Vol. 1. Fundamental algorithms) | 241—242, 255, 265—266, 271 |
| Stewart G.W. — Matrix algorithms. Volume 2: Eigensystems | see “Exponent exception” |
| Plauger P.J. — The Standard C Library | see Floating-point |
| Kincaid D., Cheney W. — Numerical analysis: mathematics of scientific computing | 32 |
| Hubbard J.R. — Theory and Problems of Fundamentals of Computing with C++ | 38 |
| Plauger P.J. — Programming on purpose: essays on software design | (see Floating-point) |
| Plauger P.J. — The standard C library | see “floating-point” |
| Antia H.M. — Numerical Methods for Scientists and Engineers | 24, 29, 32, 54, 68, 225, 375, 434, 494, 522, 582, 706, 717, 730, 756, 818 |
| Kreyszig E. — Advanced engineering mathematics | 782 |
| Knuth D.E. — The art of computer programming (vol. 1 Fundаmental algorithms) | 245, 247, 259, 268—269, 274 |
| Blackford L.S., Choi J., Geary A. — ScaLAPACK User's Guide | 121—123 |
| Quarteroni A., Saleri F. — Scientific Computing with MATLAB | 4 |
| Trefethen L.N., Bau D. — Numerical Linear Algebra | 97 |
| Plauger P.J. — Programming on purpose III: essays on software technology | (see Floating-point) |
| Hubbard J.R. — Theory and Problems of Programming with C++ | 78, 424 |
| Kernighan B.W., Ritchie D.M. — The C programming language | 41, 250, 255 |
| Stewart G.W. — Afternotes on Numerical Analysis | see "Floating-point arithmetic" |
| Metcalf M., Reid J. — Fortran 90, 95 explained | 253 |
| Ponstein J. — Nonstandart Analysis | 85, 97 |
| Zeidler E. — Oxford User's Guide to Mathematics | 1053 |
| Rice J. — Matrix computations and mathematical software | 190 |
| Burden R.L., Faires J.D. — Numerical analysis | 14 |
| Zelkowitz M.(editor) — Advances in Computers. Volume 49 | 211 |
| Kupferschmid M. — Classical FORTRAN: Programming for Engineering and Scientific Applications | 80, 81 |
| Степанов А.Н. — Архитектура вычислительных систем и компьютерных сетей | 50 |
| Nievergelt J., Farrar J.C., Reingold E.M. — Computer approaches to mathematical problems | 176 |
| Kernighan B.W., Plauger P.J. — The elements of programming style | 18, 102, 132 |
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