## binary coded decimal

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In computing and electronic systems, binary-coded decimal BCD is a class of binary encodings of decimal numbers where each decimal digit is represented by a fixed number of bitsusually four or eight. Special bit patterns are sometimes used for a sign or for other indications e. In byte-oriented systems i.

The precise 4-bit encoding may vary however, for technical reasons, see Excess-3 for instance. BCD's main virtue is its more accurate representation and rounding of decimal quantities as well as an ease of conversion into human-readable representations, in comparison to binary positional systems.

BCD's principal drawbacks are a small increase in the complexity of the circuits needed to implement basic arithmetics and a slightly less dense storage.

Although BCD per se is not as widely used as in the past and is no longer implemented in newer computers' instruction sets such as ARM ; x86 does not support BCD instructions in long mode any moredecimal fixed-point and floating-point formats are still important and continue to be used in financial, commercial, and industrial computing, where subtle conversion and fractional rounding errors that are inherent in floating point binary representations cannot be tolerated.

BCD takes advantage of the fact that any one decimal numeral can be represented by a four bit pattern. The most obvious way of encoding digits apa itu binary coded decimal "natural BCD" NBCDwhere each decimal digit is represented by its corresponding four-bit binary value, as shown in the following table.

This is also called "" encoding. Other encodings are also used, including so-called "" and ""—named after the weighting used for the bits—and " Excess-3 ". As most computers deal with data in 8-bit bytesit is possible to use one of the following methods to encode a BCD number:. As an example, encoding the decimal number 91 using unpacked BCD results in the following binary pattern of two bytes:.

Hence the numerical range for one unpacked BCD byte is zero through nine inclusive, whereas the range for one packed BCD is zero through ninety-nine inclusive. To represent numbers larger than the range of a single byte any number of contiguous bytes may be used. For example, to represent the decimal number in packed BCD, using big-endian format, a program would encode as follows:.

Note that the most significant nibble of the most significant byte is zero, implying that the number is in actuality Also note how packed BCD is more efficient in storage usage as compared apa itu binary coded decimal unpacked BCD; encoding the same number with the leading zero in unpacked format would consume twice the storage. Shifting and masking operations are used to pack or unpack a packed BCD digit. Other logical operations are used to convert a numeral to its equivalent apa itu binary coded decimal pattern or reverse the process.

BCD is very common in electronic systems where a numeric value is to be displayed, especially in systems consisting solely of digital logic, and not containing a microprocessor. By employing BCD, the manipulation of numerical data for display can be greatly simplified by treating each digit as a separate single sub-circuit.

This matches much more closely the physical reality of display hardware—a designer might choose to use a series of separate identical seven-segment displays to build a metering circuit, for example. If the numeric quantity were stored and manipulated as pure binary, interfacing to such a display would require complex circuitry. Therefore, in cases where the calculations are relatively simple, working throughout with BCD can lead to a simpler overall system than converting to and from binary.

Most pocket calculators do all their calculations in BCD. The same argument applies when hardware of this type uses an embedded microcontroller or other small processor. Often, smaller code results when representing numbers internally in BCD format, since a conversion from apa itu binary coded decimal to binary representation can be expensive on such limited processors. For these applications, some small processors feature BCD arithmetic modes, which assist when apa itu binary coded decimal routines that manipulate BCD quantities.

In packed Apa itu binary coded decimal or simply packed decimaleach of the two nibbles of each byte represent a decimal digit. Most implementations are big endiani. The lower nibble of the rightmost byte is usually used as the sign flag, although some unsigned representations lack a sign flag.

As an example, a 4-byte value consists of 8 nibbles, wherein the upper 7 nibbles store the digits of a 7-digit decimal value and the lowest nibble indicates the sign of the decimal integer value. Other allowed signs are A and E for positive and B for negative. Most implementations apa itu binary coded decimal provide unsigned BCD values with a sign nibble of F.

Burroughs systems used D for negative, and any other value is considered a positive sign value the processors will normalize a positive sign to C. No matter how many bytes wide a word is, there are always an even number of nibbles because each byte has two of them. Note that, like character strings, the first byte of the packed decimal — with the most significant two digits — is usually stored in the lowest address in memory, independent of the endianness of the machine.

The extra storage requirements are usually offset by the need for the accuracy and compatibility with calculator or hand calculation that fixed-point decimal arithmetic provides. Denser packings of BCD exist which avoid the storage penalty and also need no arithmetic operations for common conversions. Ten's complement representations for negative numbers offer an alternative approach to encoding the sign of packed and other BCD numbers. Apa itu binary coded decimal this case, positive numbers always have a most significant digit between 0 and 4 inclusivewhile negative numbers are represented by the 10's complement of the corresponding positive number.

As a result, this system allows for, a bit packed BCD numbers to range from , to 49,, and -1 is represented as As with two's complement binary numbers, the range is not symmetric about zero.

These languages allow the apa itu binary coded decimal to specify an implicit decimal point in front of one of the digits. The decimal point is not actually stored in memory, as the packed BCD storage format does not provide for it. Its location is simply known to the compiler and the generated code acts accordingly for the various arithmetic operations. If a decimal digit requires four bits, apa itu binary coded decimal three decimal digits require 12 bits.

However, since 2 10 1, is greater than 10 3 1,if three decimal digits are encoded together, only 10 bits are needed. The latter has the advantage that subsets of the encoding encode two digits in the optimal seven bits and one digit in four bits, as in regular BCD.

Some implementations, for example Apa itu binary coded decimal mainframe systems, apa itu binary coded decimal zoned decimal numeric representations. Each decimal digit is stored in one byte, with the lower four bits encoding the digit in BCD form. The upper four bits, called the "zone" bits, are usually set to a fixed value so that the byte holds a character value corresponding to the digit.

For signed zoned decimal values, the rightmost least significant zone nibble holds the sign digit, which is the same set of values that are used for signed packed decimal numbers see above. These characters vary depending on the local character code page setting. The IBM series are character-addressable machines, each location being six bits labeled B, A, 8, 4, 2 and 1, plus an odd parity check bit C and a word mark bit M. For encoding digits 1 through 9B and A are zero and the digit value represented by standard 4-bit BCD in bits 8 through 1.

For most other characters bits B and A are derived simply from the "12", "11", and "0" "zone punches" in apa itu binary coded decimal punched card character code, and bits 8 through 1 from the 1 through 9 punches. A "12 zone" punch set both B and Aan "11 zone" set Band a "0 zone" a 0 punch combined apa itu binary coded decimal any apa itu binary coded decimal set A. Thus the letter Awhich is 12,1 in the punched card format, is encoded B,A,1. This allows the circuitry to convert between the punched card format and the internal storage format to be very simple with only a few special cases.

One important special case is digit 0represented by a lone 0 punch in the card, and 8,2 in core memory. The memory of the IBM is organized into 6-bit addressable digits, the usual 8, 4, 2, 1 plus Fused as a flag bit and Can odd parity check bit. BCD alphamerics are encoded using digit pairs, with the "zone" in the even-addressed digit and the "digit" in the odd-addressed digit, the "zone" being related to the 1211and 0 "zone punches" as in the series.

A variable length Packed BCD numeric data type is also implemented, providing machine instructions that perform arithmetic directly on packed decimal data.

All of these are used within hardware registers and processing units, and in software. The MicroVAX and later VAX implementations dropped this ability from the CPU but retained code compatibility with earlier machines by implementing the missing instructions in an operating system-supplied software library.

This is invoked automatically via exception handling when the no longer implemented instructions are encountered, so that programs using them can execute without modification on the newer machines. The Intel x86 architecture supports a unique digit ten-byte BCD format that can be loaded into and stored from the floating point registers, and computations can be performed there.

The Motorola series had BCD instructions. In more recent computers such capabilities are almost always implemented in software rather than the CPU's instruction set, but BCD numeric data is still extremely common in commercial and financial applications. There are tricks for implementing packed BCD and zoned decimal add or subtract operations using short but difficult to understand sequences of word-parallel logic and binary arithmetic operations.

Conversion of the simple sum of two digits can be done by adding 6 that is, 16 — 10 when the five-bit result of adding a pair of digits has a value greater than 9. Note that is the binary, not decimal, representation of the desired result. Also note that it cannot fit in a 4-bit apa itu binary coded decimal. In BCD as in decimal, there cannot exist a value greater than 9 per digit. To correct this, 6 is added to that sum and then the result is treated as two nibbles:.

The two nibbles of the result, andcorrespond to the digits "1" and "7". This yields "17" in BCD, which is apa itu binary coded decimal correct result. This technique can be extended to adding multiple digits by adding in groups from right to left, propagating the second digit as a carry, always comparing the 5-bit result of each digit-pair sum to 9.

Some CPUs provide a apa itu binary coded decimal flag to facilitate BCD arithmetic adjustments following binary addition and subtraction operations. Subtraction is done by adding the ten's complement of the subtrahend. To represent the sign of a number in BCD, the number is used to represent a positive numberand is used to represent a negative number.

The remaining 14 combinations are invalid signs. To illustrate signed BCD subtraction, consider the following problem: In signed BCD, is The ten's complement of can be obtained by taking the nine's complement ofand then adding one. Since BCD is a form of decimal representation, several of the digit sums above are invalid. In the apa itu binary coded decimal that an invalid entry any BCD digit greater than exists, 6 is added to generate a carry bit and cause the sum to become a valid entry.

So adding 6 to the invalid entries results in the following:. To check the answer, note that the apa itu binary coded decimal digit is 9, which means negative. To check the rest of the digits, represent them in decimal.

The following table represents decimal digits from 0 to 9 in various BCD systems:. In the case Gottschalk v. Bensonthe U. Supreme Court overturned a lower court decision which had allowed a patent for converting BCD encoded numbers to binary apa itu binary coded decimal a computer.

This was an important case in determining the patentability of software and algorithms. The Atari 8-bit family of computers used BCD to implement floating-point algorithms.

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Binary coded decimal BCD is a system of writing numerals that assigns a four-digit binary code to each digit 0 through 9 in a decimal base numeral. The four- bit BCD code for any particular single base digit is its representation in binary notation, as follows:. Numbers larger than 9, having two or more digits in the decimal system, are expressed digit by digit. For example, the BCD rendition of the base number is.

The BCD representation of a number is not the same, in general, as its simple binary representation. In binary form, for example, the decimal quantity appears as. Other bit patterns are sometimes used in BCD format to represent special characters relevant to a particular system, such as sign positive or negative , error condition, or overflow condition.

The BCD system offers relative ease of conversion between machine-readable and human-readable numerals. As compared to the simple binary system, however, BCD increases the circuit complexity. The BCD system is not as widely used today as it was a few decades ago, although some systems still employ BCD in financial applications.

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Home Topics AppDev Programming binary coded decimal. The four- bit BCD code for any particular single base digit is its representation in binary notation, as follows: This was last updated in August Related Terms 10,year clock The 10,year clock is an accurate, long-term mechanical timepiece designed to tick once a year for 10, years.