26 Combinatorial Analysis Properties 26.9 Integer Partitions: Restricted Number and Part Size 26.11 Integer Partitions: Compositions

§26.10 Integer Partitions: Other Restrictions

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Referenced by:: §27.14(vi)
Permalink:: http://dlmf.nist.gov/26.10
See also:: Annotations for Ch.26

§26.10(i) Definitions

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Defines:: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$
Keywords:: notation, restricted integer partitions
Notes:: Table 26.10.1 was computed by the author.
Permalink:: http://dlmf.nist.gov/26.10.i
See also:: Annotations for §26.10 and Ch.26

$p\left(\mathcal{D},n\right)$ denotes the number of partitions of $n$ into distinct parts. $p_{m}\left(\mathcal{D},n\right)$ denotes the number of partitions of $n$ into at most $m$ distinct parts. $p\left(\mathcal{D}k,n\right)$ denotes the number of partitions of $n$ into parts with difference at least $k$ . $p\left(\mathcal{D}^{\prime}3,n\right)$ denotes the number of partitions of $n$ into parts with difference at least 3, except that multiples of 3 must differ by at least 6. $p\left(\mathcal{O},n\right)$ denotes the number of partitions of $n$ into odd parts. $p\left(\in\!S,n\right)$ denotes the number of partitions of $n$ into parts taken from the set $S$ . The set $\{n\geq 1\>|\>n\equiv\pm j\ \pmod{k}\}$ is denoted by $A_{j,k}$ . The set $\{2,3,4,\ldots\}$ is denoted by $T$ . If more than one restriction applies, then the restrictions are separated by commas, for example, $p\left(\mathcal{D}2,\hbox{}\!\!\in\!T,n\right)$ . See Table 26.10.1.

26.10.1		$p\left(\mathcal{D},0\right)=p\left(\mathcal{D}k,0\right)=p\left(\in\!S,0\right% )=1.$
ⓘ Symbols: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $k$ : nonnegative integer and $S$ : set Permalink: http://dlmf.nist.gov/26.10.E1 Encodings: TeX, pMML, png See also: Annotations for §26.10(i), §26.10 and Ch.26

Table 26.10.1: Partitions restricted by difference conditions, or equivalently with parts from

A_{j,k}

	$p\left(\mathcal{D},n\right)$	$p\left(\mathcal{D}2,n\right)$	$p\left(\mathcal{D}2,\hbox{}\!\!\in\!T,n\right)$	$p\left(\mathcal{D}^{\prime}3,n\right)$
$n$	and	and	and	and
	$p\left(\mathcal{O},n\right)$	$p\left(\in\!A_{1,5},n\right)$	$p\left(\in\!A_{2,5},n\right)$	$p\left(\in\!A_{1,6},n\right)$
$0$	$1$	$1$	$1$	$1$
$1$	$1$	$1$	$0$	$1$
$2$	$1$	$1$	$1$	$1$
$3$	$2$	$1$	$1$	$1$
$4$	$2$	$2$	$1$	$1$
$5$	$3$	$2$	$1$	$2$
$6$	$4$	$3$	$2$	$2$
$7$	$5$	$3$	$2$	$3$
$8$	$6$	$4$	$3$	$3$
$9$	$8$	$5$	$3$	$3$
$10$	$10$	$6$	$4$	$4$
$11$	$12$	$7$	$4$	$5$
$12$	$15$	$9$	$6$	$6$
$13$	$18$	$10$	$6$	$7$
$14$	$22$	$12$	$8$	$8$
$15$	$27$	$14$	$9$	$9$
$16$	$32$	$17$	$11$	$10$
$17$	$38$	$19$	$12$	$12$
$18$	$46$	$23$	$15$	$14$
$19$	$54$	$26$	$16$	$16$
$20$	$64$	$31$	$20$	$18$

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Symbols:: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer, $k$ : nonnegative integer, $n$ : nonnegative integer, $A_{j,k}$ : set and $T$ : set
Keywords:: restricted integer partitions, tables
Referenced by:: §26.10(i), §26.10(i)
Permalink:: http://dlmf.nist.gov/26.10.T1
See also:: Annotations for §26.10(i), §26.10 and Ch.26

§26.10(ii) Generating Functions

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Keywords:: generating functions, restricted integer partitions
Notes:: See Andrews (1976, pp. 5, 16, 17, 19, 36). For (26.10.3) see Bressoud (1999, pp. 78–79).
Permalink:: http://dlmf.nist.gov/26.10.ii
See also:: Annotations for §26.10 and Ch.26

Throughout this subsection it is assumed that $|q|<1$ .

26.10.2		$\sum_{n=0}^{\infty}p\left(\mathcal{D},n\right)q^{n}=\prod_{j=1}^{\infty}(1+q^{% j})=\prod_{j=1}^{\infty}\frac{1}{1-q^{2j-1}}=1+\sum_{m=1}^{\infty}\frac{q^{m(m% +1)/2}}{(1-q)(1-q^{2})\cdots(1-q^{m})}=1+\sum_{m=1}^{\infty}q^{m}(1+q)(1+q^{2}% )\cdots\*(1+q^{m-1}),$
ⓘ Symbols: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer, $m$ : nonnegative integer, $n$ : nonnegative integer and $q$ : parameter A&S Ref: 24.2.2 Permalink: http://dlmf.nist.gov/26.10.E2 Encodings: TeX, pMML, png See also: Annotations for §26.10(ii), §26.10 and Ch.26

where the last right-hand side is the sum over $m\geq 0$ of the generating functions for partitions into distinct parts with largest part equal to $m$ .

26.10.3		$(1-x)\sum_{m,n=0}^{\infty}p_{m}\left(\leq k,\mathcal{D},n\right)x^{m}q^{n}=% \sum_{m=0}^{k}\genfrac{[}{]}{0.0pt}{}{k}{m}_{q}q^{m(m+1)/2}x^{m}=\prod_{j=1}^{% k}(1+x\,q^{j}),$
$\|x\|<1$ ,
ⓘ Symbols: $\genfrac{[}{]}{0.0pt}{}{\NVar{n}}{\NVar{m}}_{\NVar{q}}$ : $q$ -binomial coefficient (or Gaussian polynomial), $p_{\NVar{k}}\left(\leq\NVar{m},\NVar{n}\right)$ : number of partitions of $n$ into at most $k$ parts, each less than or equal to $m$ , $x$ : real variable, $j$ : nonnegative integer, $k$ : nonnegative integer, $m$ : nonnegative integer, $n$ : nonnegative integer and $q$ : parameter Referenced by: §26.10(ii) Permalink: http://dlmf.nist.gov/26.10.E3 Encodings: TeX, pMML, png See also: Annotations for §26.10(ii), §26.10 and Ch.26

26.10.4		$\sum_{n=0}^{\infty}p\left(\mathcal{D}k,n\right)q^{n}={1+\sum_{m=1}^{\infty}% \frac{q^{(km^{2}+(2-k)m)/2}}{(1-q)(1-q^{2})\cdots(1-q^{m})}},$
ⓘ Symbols: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $k$ : nonnegative integer, $m$ : nonnegative integer, $n$ : nonnegative integer and $q$ : parameter Permalink: http://dlmf.nist.gov/26.10.E4 Encodings: TeX, pMML, png See also: Annotations for §26.10(ii), §26.10 and Ch.26

26.10.5		$\sum_{n=0}^{\infty}p\left(\in\!S,n\right)q^{n}=\prod_{j\in S}\frac{1}{1-q^{j}}.$
ⓘ Symbols: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer, $n$ : nonnegative integer, $S$ : set and $q$ : parameter Permalink: http://dlmf.nist.gov/26.10.E5 Encodings: TeX, pMML, png See also: Annotations for §26.10(ii), §26.10 and Ch.26

§26.10(iii) Recurrence Relations

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Keywords:: recurrence relations, restricted integer partitions
Notes:: See Bressoud (1999, p. 60) and Andrews (1976, pp. 11, 12).
Permalink:: http://dlmf.nist.gov/26.10.iii
See also:: Annotations for §26.10 and Ch.26

26.10.6		$p\left(\mathcal{D},n\right)=\frac{1}{n}\sum_{t=1}^{n}p\left(\mathcal{D},n-t% \right)\sum_{\begin{subarray}{c}j\mathbin{\|}t\\ \mbox{\scriptsize$j$ odd}\end{subarray}}j,$
ⓘ Symbols: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer and $n$ : nonnegative integer Permalink: http://dlmf.nist.gov/26.10.E6 Encodings: TeX, pMML, png See also: Annotations for §26.10(iii), §26.10 and Ch.26

where the inner sum is the sum of all positive odd divisors of $t$ .

26.10.7		$\sum(-1)^{k}p\left(\mathcal{D},n-\tfrac{1}{2}(3k^{2}\pm k)\right)=\begin{cases% }(-1)^{r},&n=3r^{2}\pm r,\\ 0,&\mbox{otherwise},\end{cases}$
ⓘ Symbols: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $k$ : nonnegative integer and $n$ : nonnegative integer A&S Ref: 24.2.2 Permalink: http://dlmf.nist.gov/26.10.E7 Encodings: TeX, pMML, png See also: Annotations for §26.10(iii), §26.10 and Ch.26

where the sum is over nonnegative integer values of $k$ for which $n-\frac{1}{2}(3k^{2}\pm k)\geq 0$ .

26.10.8		$\sum(-1)^{k}p\left(\mathcal{D},n-(3k^{2}\pm k)\right)=\begin{cases}1,&n=\tfrac% {1}{2}(r^{2}\pm r),\\ 0,&\mbox{otherwise},\end{cases}$
ⓘ Symbols: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $k$ : nonnegative integer and $n$ : nonnegative integer A&S Ref: 24.2.2 Permalink: http://dlmf.nist.gov/26.10.E8 Encodings: TeX, pMML, png See also: Annotations for §26.10(iii), §26.10 and Ch.26

where the sum is over nonnegative integer values of $k$ for which $n-(3k^{2}\pm k)\geq 0$ .

In exact analogy with (26.9.8), we have

26.10.9	$\displaystyle p_{m}\left(\mathcal{D},n\right)$	$\displaystyle=p_{m}\left(\mathcal{D},n-m\right)+p_{m-1}\left(\mathcal{D},n% \right),$
ⓘ Symbols: $p_{\NVar{k}}\left(\leq\NVar{m},\NVar{n}\right)$ : number of partitions of $n$ into at most $k$ parts, each less than or equal to $m$ , $m$ : nonnegative integer and $n$ : nonnegative integer Permalink: http://dlmf.nist.gov/26.10.E9 Encodings: TeX, pMML, png See also: Annotations for §26.10(iii), §26.10 and Ch.26
26.10.10	$\displaystyle p\left(\mathcal{D}k,n\right)$	$\displaystyle=\sum p_{m}\left(n-\tfrac{1}{2}km^{2}-m+\tfrac{1}{2}km\right),$
ⓘ Symbols: $p_{\NVar{k}}\left(\NVar{n}\right)$ : total number of partitions of $n$ into at most $k$ parts, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $k$ : nonnegative integer, $m$ : nonnegative integer and $n$ : nonnegative integer Permalink: http://dlmf.nist.gov/26.10.E10 Encodings: TeX, pMML, png See also: Annotations for §26.10(iii), §26.10 and Ch.26

where the sum is over nonnegative integer values of $m$ for which $n-\tfrac{1}{2}km^{2}-m+\tfrac{1}{2}km\geq 0$ .

26.10.11		$p\left(\in\!S,n\right)=\frac{1}{n}\sum_{t=1}^{n}p\left(\in\!S,n-t\right)\sum_{% \begin{subarray}{c}j\mathbin{\|}t\\ j\in S\end{subarray}}j,$
ⓘ Symbols: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer, $n$ : nonnegative integer and $S$ : set Permalink: http://dlmf.nist.gov/26.10.E11 Encodings: TeX, pMML, png See also: Annotations for §26.10(iii), §26.10 and Ch.26

where the inner sum is the sum of all positive divisors of $t$ that are in $S$ .

§26.10(iv) Identities

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Keywords:: Rogers–Ramanujan identities, identities, partitions, restricted integer partitions
Notes:: See Andrews (1976, pp. 5, 104, 116).
Permalink:: http://dlmf.nist.gov/26.10.iv
See also:: Annotations for §26.10 and Ch.26

Equations (26.10.13) and (26.10.14) are the Rogers–Ramanujan identities. See also §17.2(vi).

26.10.12		$p\left(\mathcal{D},n\right)=p\left(\mathcal{O},n\right),$
ⓘ Symbols: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ and $n$ : nonnegative integer Permalink: http://dlmf.nist.gov/26.10.E12 Encodings: TeX, pMML, png See also: Annotations for §26.10(iv), §26.10 and Ch.26

26.10.13		$p\left(\mathcal{D}2,n\right)=p\left(\in A_{1,5},n\right),$
ⓘ Symbols: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $n$ : nonnegative integer and $A_{j,k}$ : set Referenced by: §26.10(iv) Permalink: http://dlmf.nist.gov/26.10.E13 Encodings: TeX, pMML, png See also: Annotations for §26.10(iv), §26.10 and Ch.26

26.10.14		$p\left(\mathcal{D}2,\hbox{}\!\!\in T,n\right)=p\left(\in\!A_{2,5},n\right),$
$T=\{2,3,4,\ldots\}$ ,
ⓘ Symbols: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $n$ : nonnegative integer, $A_{j,k}$ : set and $T$ : set Referenced by: §26.10(iv) Permalink: http://dlmf.nist.gov/26.10.E14 Encodings: TeX, pMML, png See also: Annotations for §26.10(iv), §26.10 and Ch.26

26.10.15		$p\left(\mathcal{D}^{\prime}3,n\right)=p\left(\in A_{1,6},n\right).$
ⓘ Symbols: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $n$ : nonnegative integer and $A_{j,k}$ : set Permalink: http://dlmf.nist.gov/26.10.E15 Encodings: TeX, pMML, png See also: Annotations for §26.10(iv), §26.10 and Ch.26

Note that $p\left(\mathcal{D}^{\prime}3,n\right)\leq p\left(\mathcal{D}3,n\right)$ , with strict inequality for $n\geq 9$ . It is known that for $k>3$ , $p\left(\mathcal{D}k,n\right)\geq p\left(\in\!A_{1,k+3},n\right)$ , with strict inequality for $n$ sufficiently large, provided that $k=2^{m}-1,m=3,4,5$ , or $k\geq 32$ ; see Yee (2004).

§26.10(v) Limiting Form

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Keywords:: limiting form, restricted integer partitions
Notes:: See Andrews (1976, p. 97).
Permalink:: http://dlmf.nist.gov/26.10.v
See also:: Annotations for §26.10 and Ch.26

26.10.16		$p\left(\mathcal{D},n\right)\sim\frac{{\mathrm{e}}^{\pi\sqrt{n/3}}}{(768n^{3})^% {1/4}},$
$n\to\infty$ .
ⓘ Symbols: $\sim$ : asymptotic equality, $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ and $n$ : nonnegative integer A&S Ref: 24.2.2 Permalink: http://dlmf.nist.gov/26.10.E16 Encodings: TeX, pMML, png See also: Annotations for §26.10(v), §26.10 and Ch.26

§26.10(vi) Bessel-Function Expansion

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Keywords:: Bessel-function expansion, of integers, partitions, restricted integer partitions
Notes:: See Andrews (1976, p. 82).
Permalink:: http://dlmf.nist.gov/26.10.vi
See also:: Annotations for §26.10 and Ch.26

26.10.17		$p\left(\mathcal{D},n\right)=\pi\sum_{k=1}^{\infty}\frac{A_{2k-1}(n)}{(2k-1)% \sqrt{24n+1}}I_{1}\left(\frac{\pi}{2k-1}\sqrt{\frac{24n+1}{72}}\right),$
ⓘ Symbols: $\pi$ : the ratio of the circumference of a circle to its diameter, $I_{\NVar{\nu}}\left(\NVar{z}\right)$ : modified Bessel function of the first kind, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $k$ : nonnegative integer, $n$ : nonnegative integer and $A_{k}(n)$ : coefficient A&S Ref: 24.2.2 Permalink: http://dlmf.nist.gov/26.10.E17 Encodings: TeX, pMML, png See also: Annotations for §26.10(vi), §26.10 and Ch.26

where $I_{1}\left(x\right)$ is the modified Bessel function (§10.25(ii)), and

26.10.18		$A_{k}(n)=\sum_{\begin{subarray}{c}1<h\leq k\\ \left(h,k\right)=1\end{subarray}}{\mathrm{e}}^{\pi\mathrm{i}f(h,k)-(2\pi% \mathrm{i}nh/k)},$
ⓘ Symbols: $\pi$ : the ratio of the circumference of a circle to its diameter, $\mathrm{e}$ : base of natural logarithm, $\left(\NVar{m},\NVar{n}\right)$ : greatest common divisor (gcd), $\mathrm{i}$ : imaginary unit, $h$ : nonnegative integer, $k$ : nonnegative integer, $n$ : nonnegative integer, $A_{k}(n)$ : coefficient and $f(h,k)$ : function Permalink: http://dlmf.nist.gov/26.10.E18 Encodings: TeX, pMML, png See also: Annotations for §26.10(vi), §26.10 and Ch.26

with

26.10.19		$f(h,k)=\sum_{j=1}^{k}\left[\!\!\left[\frac{2j-1}{2k}\right]\!\!\right]\left[\!% \!\left[\frac{h(2j-1)}{k}\right]\!\!\right],$
ⓘ Defines: $f(h,k)$ : function (locally) Symbols: $h$ : nonnegative integer, $j$ : nonnegative integer and $k$ : nonnegative integer Permalink: http://dlmf.nist.gov/26.10.E19 Encodings: TeX, pMML, png See also: Annotations for §26.10(vi), §26.10 and Ch.26

and

26.10.20		$[\![x]\!]=\begin{cases}x-\left\lfloor x\right\rfloor-\tfrac{1}{2},&x\notin% \mathbb{Z},\\ 0,&x\in\mathbb{Z}.\end{cases}$
ⓘ Symbols: $\in$ : element of, $\left\lfloor\NVar{x}\right\rfloor$ : floor of $x$ , $\mathbb{Z}$ : set of all integers, $\notin$ : not an element of and $x$ : real variable Permalink: http://dlmf.nist.gov/26.10.E20 Encodings: TeX, pMML, png See also: Annotations for §26.10(vi), §26.10 and Ch.26

The quantity $A_{k}(n)$ is real-valued.

26.9 Integer Partitions: Restricted Number and Part Size 26.11 Integer Partitions: Compositions

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