Английская Википедия:Decimal64 floating-point format

Шаблон:Lowercase Шаблон:Use dmy dates Шаблон:Floating-point In computing, decimal64 is a decimal floating-point computer numbering format that occupies 8 bytes (64 bits) in computer memory. It is intended for applications where it is necessary to emulate decimal rounding exactly, such as financial and tax computations.

Decimal64 supports 16 decimal digits of significand and an exponent range of −383 to +384, i.e. Шаблон:Gaps to Шаблон:Gaps. (Equivalently, Шаблон:Gaps to Шаблон:Gaps.) In contrast, the corresponding binary format, which is the most commonly used type, has an approximate range of Шаблон:Gaps to Шаблон:Gaps. Because the significand is not normalized, most values with less than 16 significant digits have multiple possible representations; Шаблон:Gaps, etc. Zero has 768 possible representations (1536 if both signed zeros are included).

Decimal64 floating point is a relatively new decimal floating-point format, formally introduced in the 2008 version^[1] of IEEE 754 as well as with ISO/IEC/IEEE 60559:2011.^[2]

Representation of decimal64 values

Sign	Combination	Significand continuation
1 bit	13 bits	50 bits
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono

IEEE 754 allows two alternative representation methods for decimal64 values. The standard does not specify how to signify which representation is used, for instance in a situation where decimal64 values are communicated between systems:

• In the binary representation method, the 16-digit significand is represented as a binary coded positive integer, based on binary integer decimal (BID).
• In the decimal representation method, the 16-digit significand is represented as a decimal coded positive integer, based on densely packed decimal (DPD) with 5 groups of 3 digits (except the most significant digit encoded specially) are each represented in declets (10-bit sequences). This is pretty efficient, because 2¹⁰ = 1024, is only little more than needed to still contain all numbers from 0 to 999.

Both alternatives provide exactly the same range of representable numbers: 16 digits of significand and Шаблон:Math possible decimal exponent values. (All the possible decimal exponent values storable in a binary64 number are representable in decimal64, and most bits of the significand of a binary64 are stored keeping roughly the same number of decimal digits in the significand.)

In both cases, the most significant 4 bits of the significand (which actually only have 10 possible values) are combined with the most significant 2 bits of the exponent (3 possible values) to use 30 of the 32 possible values of a 5-bit field. The remaining combinations encode infinities and NaNs.

Combination field	Exponent	Significand Msbits	Other
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono	Шаблон:Sdash
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono	Шаблон:Sdash
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono	Шаблон:Sdash
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono	Шаблон:Sdash
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono	Шаблон:Sdash
Шаблон:Mono	Шаблон:Mono	Шаблон:Mono	Шаблон:Sdash
Шаблон:Mono	Шаблон:Sdash	Шаблон:Sdash	±Infinity
Шаблон:Mono	Шаблон:Sdash	Шаблон:Sdash	Шаблон:Mono. Sign bit ignored. Sixth bit of the combination field determines if NaN is signaling.

In the cases of Infinity and NaN, all other bits of the encoding are ignored. Thus, it is possible to initialize an array to Infinities or NaNs by filling it with a single byte value.

Binary integer significand field

This format uses a binary significand from 0 to Шаблон:Math

The encoding, completely stored on 64 bits, can represent binary significands up to Шаблон:Math but values larger than Шаблон:Math are illegal (and the standard requires implementations to treat them as 0, if encountered on input).

As described above, the encoding varies depending on whether the most significant Шаблон:Val of the significand are in the range 0 to 7 (0000₂ to 0111₂), or higher (1000₂ or 1001₂).

If the 2 after the sign bit are "00", "01", or "10", then the exponent field consists of the Шаблон:Val following the sign bit, and the significand is the remaining Шаблон:Val, with an implicit leading Шаблон:Val:

s 00eeeeeeee   (0)ttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt
s 01eeeeeeee   (0)ttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt
s 10eeeeeeee   (0)ttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt

This includes subnormal numbers where the leading significand digit is 0.

If the Шаблон:Val after the sign bit are "11", then the 10-bit exponent field is shifted Шаблон:Val to the right (after both the sign bit and the "11" bits thereafter), and the represented significand is in the remaining Шаблон:Val. In this case there is an implicit (that is, not stored) leading 3-bit sequence "100" for the most bits of the true significand (in the remaining lower bits ttt...ttt of the significand, not all possible values are used).

s 1100eeeeeeee (100)t tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt
s 1101eeeeeeee (100)t tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt
s 1110eeeeeeee (100)t tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt

The 2-bit sequence "11" after the sign bit indicates that there is an implicit 3-bit prefix "100" to the significand. Compare having an implicit 1-bit prefix "1" in the significand of normal values for the binary formats. The 2-bit sequences "00", "01", or "10" after the sign bit are part of the exponent field.

The leading bits of the significand field do not encode the most significant decimal digit; they are simply part of a larger pure-binary number. For example, a significand of Шаблон:Gaps is encoded as binary Шаблон:Gaps₂, with the leading Шаблон:Val encoding 7; the first significand which requires a 54th bit is Шаблон:Math The highest valid significant is Шаблон:Gaps whose binary encoding is Шаблон:Gaps₂ (with the 3 most significant bits (100) not stored but implicit as shown above; and the next bit is always zero in valid encodings).

In the above cases, the value represented is

Шаблон:Math

If the four bits after the sign bit are "1111" then the value is an infinity or a NaN, as described above:

s 11110 xx...x    ±infinity
s 11111 0x...x    a quiet NaN
s 11111 1x...x    a signalling NaN

Densely packed decimal significand field

In this version, the significand is stored as a series of decimal digits. The leading digit is between 0 and 9 (3 or 4 binary bits), and the rest of the significand uses the densely packed decimal (DPD) encoding.

The leading Шаблон:Val of the exponent and the leading digit (3 or Шаблон:Val) of the significand are combined into the five bits that follow the sign bit.

This eight bits after that are the exponent continuation field, providing the less-significant bits of the exponent.

The last Шаблон:Val are the significand continuation field, consisting of five 10-bit declets.^[3] Each declet encodes three decimal digits^[3] using the DPD encoding.

If the first two bits after the sign bit are "00", "01", or "10", then those are the leading bits of the exponent, and the three bits "TTT" after that are interpreted as the leading decimal digit (0 to 7):

s 00 TTT (00)eeeeeeee (0TTT)[tttttttttt][tttttttttt][tttttttttt][tttttttttt][tttttttttt]
s 01 TTT (01)eeeeeeee (0TTT)[tttttttttt][tttttttttt][tttttttttt][tttttttttt][tttttttttt]
s 10 TTT (10)eeeeeeee (0TTT)[tttttttttt][tttttttttt][tttttttttt][tttttttttt][tttttttttt]

If the first two bits after the sign bit are "11", then the second 2-bits are the leading bits of the exponent, and the next bit "T" is prefixed with implicit bits "100" to form the leading decimal digit (8 or 9):

s 1100 T (00)eeeeeeee (100T)[tttttttttt][tttttttttt][tttttttttt][tttttttttt][tttttttttt]
s 1101 T (01)eeeeeeee (100T)[tttttttttt][tttttttttt][tttttttttt][tttttttttt][tttttttttt]
s 1110 T (10)eeeeeeee (100T)[tttttttttt][tttttttttt][tttttttttt][tttttttttt][tttttttttt]

The remaining two combinations (11 110 and 11 111) of the 5-bit field after the sign bit are used to represent ±infinity and NaNs, respectively.

The DPD/3BCD transcoding for the declets is given by the following table. b9...b0 are the bits of the DPD, and d2...d0 are the three BCD digits.

Шаблон:Densely packed decimal

The 8 decimal values whose digits are all 8s or 9s have four codings each. The bits marked x in the table above are ignored on input, but will always be 0 in computed results. (The Шаблон:Math non-standard encodings fill in the gap between Шаблон:Math)

In the above cases, with the true significand as the sequence of decimal digits decoded, the value represented is

<math>(-1)^\text{signbit}\times 10^{\text{exponentbits}_2-398_{10}}\times \text{truesignificand}_{10}</math>

See also

• ISO/IEC 10967, Language Independent Arithmetic
• Primitive data type
• D notation (scientific notation)

References

Шаблон:Reflist

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