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230 lines
9.4 KiB
Groff
230 lines
9.4 KiB
Groff
.TH ENT "1" "July 2007" "ent" "http://www.fourmilab.ch/random/"
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.SH NAME
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\fBent\fR \- pseudorandom number sequence test
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.PP
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This page describes a program, \fBent\fR, which applies various tests to
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sequences of bytes stored in files and reports the results of those tests.
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The program is useful for those evaluating pseudorandom number generators
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for encryption and statistical sampling applications, compression
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algorithms, and other applications where the information density of a file
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is of interest.
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.SH SYNOPSIS
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\fBent\fR [ \-bcftu ] [ \fIinfile\fR ]
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.SH DESCRIPTION
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\fBent\fR performs a variety of tests on the stream of bytes in \fIinfile\fR (or
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standard input if no \fIinfile\fR is specified) and produces output as follows
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on the standard output stream:
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.PP
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.nf
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Entropy = 7.980627 bits per character.
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Optimum compression would reduce the size
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of this 51768 character file by 0 percent.
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Chi square distribution for 51768 samples is 1542.26, and randomly
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would exceed this value 0.01 percent of the times.
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Arithmetic mean value of data bytes is 125.93 (127.5 = random).
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Monte Carlo value for Pi is 3.169834647 (error 0.90 percent).
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Serial correlation coefficient is 0.004249 (totally uncorrelated = 0.0).
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.fi
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.PP
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The values calculated are as follows:
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.PP
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Entropy
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.PP
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The information density of the contents of the file, expressed as
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a number of bits per character. The results above, which resulted
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from processing an image file compressed with JPEG, indicate that
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the file is extremely dense in information -- essentially random.
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Hence, compression of the file is unlikely to reduce its size. By
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contrast, the C source code of the program has entropy of about
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4.9 bits per character, indicating that optimal compression of the
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file would reduce its size by 38%. \fB[Hamming, pp. 104-108]\fR
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.PP
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Chi-square Test
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.PP
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The chi-square test is the most commonly used test for the
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randomness of data, and is extremely sensitive to errors in
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pseudorandom sequence generators. The chi-square distribution is
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calculated for the stream of bytes in the file and expressed as an
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absolute number and a percentage which indicates how frequently a
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truly random sequence would exceed the value calculated. We
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interpret the percentage as the degree to which the sequence
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tested is suspected of being non-random. If the percentage is
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greater than 99% or less than 1%, the sequence is almost certainly
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not random. If the percentage is between 99% and 95% or between 1%
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and 5%, the sequence is suspect. Percentages between 90% and 95%
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and 5% and 10% indicate the sequence is "almost suspect". Note
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that our JPEG file, while very dense in information, is far from
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random as revealed by the chi-square test.
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.PP
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Applying this test to the output of various pseudorandom sequence
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generators is interesting. The low-order 8 bits returned by the
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standard Unix rand() function, for example, yields:
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.PP
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.nf
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Chi square distribution for 500000 samples is 0.01, and randomly
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would exceed this value 99.99 percent of the times.
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.fi
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.PP
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While an improved generator \fB[Park & Miller]\fR reports:
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.PP
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.nf
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Chi square distribution for 500000 samples is 212.53, and
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randomly would exceed this value 95.00 percent of the times.
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.fi
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.PP
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Thus, the standard Unix generator (or at least the low-order bytes
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it returns) is unacceptably non-random, while the improved
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generator is much better but still sufficiently non-random to
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cause concern for demanding applications. Contrast both of these
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software generators with the chi-square result of a genuine random
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sequence created by timing radioactive decay events.
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.PP
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.nf
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Chi square distribution for 32768 samples is 237.05, and
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randomly would exceed this value 75.00 percent of the times.
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.fi
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.PP
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See \fB[Knuth, pp. 35-40]\fR for more information on the chi-square
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test. An interactive chi-square calculator is available at this
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site.
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.PP
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Arithmetic Mean
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.PP
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This is simply the result of summing the all the bytes (bits if
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the \fB\-b\fR option is specified) in the file and dividing by the file
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length. If the data are close to random, this should be about
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127.5 (0.5 for \fB\-b\fR option output). If the mean departs from this
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value, the values are consistently high or low.
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.PP
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Monte Carlo Value for Pi
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.PP
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Each successive sequence of six bytes is used as 24 bit X and Y
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co-ordinates within a square. If the distance of the
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randomly-generated point is less than the radius of a circle
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inscribed within the square, the six-byte sequence is considered a
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"hit". The percentage of hits can be used to calculate the value
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of Pi. For very large streams (this approximation converges very
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slowly), the value will approach the correct value of Pi if the
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sequence is close to random. A 32768 byte file created by
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radioactive decay yielded:
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.PP
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.nf
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Monte Carlo value for Pi is 3.139648438 (error 0.06 percent).
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.fi
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.PP
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Serial Correlation Coefficient
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.PP
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This quantity measures the extent to which each byte in the file
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depends upon the previous byte. For random sequences, this value
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(which can be positive or negative) will, of course, be close to
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zero. A non-random byte stream such as a C program will yield a
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serial correlation coefficient on the order of 0.5. Wildly
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predictable data such as uncompressed bitmaps will exhibit serial
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correlation coefficients approaching 1. See \fB[Knuth, pp. 64-65]\fR for
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more details.
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.SH OPTIONS
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.IP \fB\-b\fR
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The input is treated as a stream of bits rather than of 8-bit
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bytes. Statistics reported reflect the properties of the
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bitstream.
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.IP \fB\-c\fR
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Print a table of the number of occurrences of each possible byte
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(or bit, if the \fB\-b\fR option is also specified) value, and the
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fraction of the overall file made up by that value. Printable
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characters in the ISO 8859-1 Latin1 character set are shown along
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with their decimal byte values. In non-terse output mode, values
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with zero occurrences are not printed.
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.IP \fB\-f\fR
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Fold upper case letters to lower case before computing statistics.
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Folding is done based on the ISO 8859-1 Latin1 character set, with
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accented letters correctly processed.
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.IP \fB\-t\fR
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Terse mode: output is written in Comma Separated Value (CSV)
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format, suitable for loading into a spreadsheet and easily read by
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any programming language. See Terse Mode Output Format below for
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additional details.
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.IP \fB\-u\fR
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Print how-to-call information.
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.SH FILES
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If no \fIinfile\fR is specified, \fBent\fR obtains its input from standard input.
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Output is always written to standard output.
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.SH TERSE MODE OUTPUT FORMAT
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Terse mode is selected by specifying the \fB\-t\fR option on the command line.
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Terse mode output is written in Comma Separated Value (CSV) format, which
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can be directly loaded into most spreadsheet programs and is easily read
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by any programming language. Each record in the CSV file begins with a
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record type field, which identifies the content of the following fields.
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If the \fB\-c\fR option is not specified, the terse mode output will consist of
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two records, as follows:
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.PP
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.nf
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0,File-bytes,Entropy,Chi-square,Mean,Monte-Carlo-Pi,Serial-Correlation
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1,file_length,entropy,chi_square,mean,Pi_value,correlation
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.fi
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.PP
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where the italicised values in the type 1 record are the numerical values
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for the quantities named in the type 0 column title record. If the \fB\-b\fR
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option is specified, the second field of the type 0 record will be
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"File-bits", and the file_length field in type 1 record will be given in
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bits instead of bytes. If the \fB\-c\fR option is specified, additional records
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are appended to the terse mode output which contain the character counts:
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.PP
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.nf
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2,Value,Occurrences,Fraction
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3,v,count,fraction
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. . .
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.fi
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.PP
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If the \fB\-b\fR option is specified, only two type 3 records will appear for the
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two bit values v=0 and v=1. Otherwise, 256 type 3 records are included,
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one for each possible byte value. The second field of a type 3 record
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indicates how many bytes (or bits) of value v appear in the input, and
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fraction gives the decimal fraction of the file which has value v (which
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is equal to the count value of this record divided by the file_length
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field in the type 1 record).
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.SH BUGS
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Note that the "optimal compression" shown for the file is computed from
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the byte- or bit-stream entropy and thus reflects compressibility based on
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a reading frame of the chosen width (8-bit bytes or individual bits if the
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\fB\-b\fR option is specified). Algorithms which use a larger reading frame, such
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as the Lempel-Ziv \fB[Lempel & Ziv]\fR algorithm, may achieve greater
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compression if the file contains repeated sequences of multiple bytes.
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.SH SEE ALSO
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\fIIntroduction to Probability and Statistics\fR
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.br
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http://www.fourmilab.ch/rpkp/experiments/statistics.html
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.PP
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\fB[Hamming]\fR
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.br
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Hamming, Richard W. \fICoding and Information Theory.\fR Englewood
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Cliffs NJ: Prentice-Hall, 1980.
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.PP
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\fB[Knuth]\fR
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.br
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Knuth, Donald E. \fIThe Art of Computer Programming, Volume 2 /
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Seminumerical Algorithms\fR. Reading MA: Addison-Wesley, 1969. ISBN
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0-201-89684-2.
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.PP
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\fB[Lempel & Ziv]\fR
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.br
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Ziv J. and A. Lempel. "A Universal Algorithm for Sequential Data
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Compression". \fIIEEE Transactions on Information Theory\fR \fB23\fR, 3,
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pp. 337-343.
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.PP
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\fB[Park & Miller]\fR
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.br
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Park, Stephen K. and Keith W. Miller. "Random Number Generators:
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Good Ones Are Hard to Find". \fICommunications of the ACM\fR, October
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1988, p. 1192.
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.SH COPYING
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This software is in the public domain. Permission to use, copy, modify,
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and distribute this software and its documentation for any purpose and
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without fee is hereby granted, without any conditions or restrictions.
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This software is provided "as is" without express or implied warranty.
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.SH AUTHOR
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John Walker
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.br
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October 20th, 1998
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