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2. Arbitrary-precision arithmetic - Wikipedia

   en.wikipedia.org/wiki/Arbitrary-precision_arithmetic

   Even floating-point numbers are soon outranged, so it may help to recast the calculations in terms of the logarithm of the number. But if exact values for large factorials are desired, then special software is required, as in the pseudocode that follows, which implements the classic algorithm to calculate 1, 1×2, 1×2×3, 1×2×3×4, etc. the ...

3. Scientific notation - Wikipedia

   en.wikipedia.org/wiki/Scientific_notation

   The same number, however, would be used if the last two digits were also measured precisely and found to equal 0 – seven significant figures. When a number is converted into normalized scientific notation, it is scaled down to a number between 1 and 10. All of the significant digits remain, but the placeholding zeroes are no longer required.

4. Names of large numbers - Wikipedia

   en.wikipedia.org/wiki/Names_of_large_numbers

   Names of larger numbers, however, have a tenuous, artificial existence, rarely found outside definitions, lists, and discussions of how large numbers are named. Even well-established names like sextillion are rarely used, since in the context of science, including astronomy, where such large numbers often occur, they are nearly always written ...

5. Highly composite number - Wikipedia

   en.wikipedia.org/wiki/Highly_composite_number

   Demonstration, with Cuisenaire rods, of the first four highly composite numbers: 1, 2, 4, 6. A highly composite number is a positive integer that has more divisors than all smaller positive integers. If d(n) denotes the number of divisors of a positive integer n, then a positive integer N is highly composite if d(N) > d(n) for all n < N.

6. Knuth's up-arrow notation - Wikipedia

   en.wikipedia.org/wiki/Knuth's_up-arrow_notation

   In mathematics, Knuth's up-arrow notation is a method of notation for very large integers, introduced by Donald Knuth in 1976. [1]In his 1947 paper, [2] R. L. Goodstein introduced the specific sequence of operations that are now called hyperoperations.

7. Conway chained arrow notation - Wikipedia

   en.wikipedia.org/wiki/Conway_chained_arrow_notation

   Conway chained arrow notation, created by mathematician John Horton Conway, is a means of expressing certain extremely large numbers. [1] It is simply a finite sequence of positive integers separated by rightward arrows, e.g. . As with most combinatorial notations, the definition is recursive. In this case the notation eventually resolves to ...