1 files changed, 93 insertions, 17 deletions

diff --git a/lib/stdlib/doc/src/rand.xml b/lib/stdlib/doc/src/rand.xml
index 27d2d99f3c..b4737b48f8 100644
--- a/lib/stdlib/doc/src/rand.xml
+++ b/lib/stdlib/doc/src/rand.xml
@@ -38,25 +38,71 @@
     <p>
       This module provides a pseudo random number generator.
       The module contains a number of algorithms.
-      The uniform distribution algorithms use the
+      The uniform distribution algorithms are based on the
       <url href="http://xorshift.di.unimi.it">
-	xoroshiro116+ and xorshift1024* algorithms by Sebastiano Vigna.
+	Xoroshiro and Xorshift algorithms
       </url>
+      by Sebastiano Vigna.
       The normal distribution algorithm uses the
       <url href="http://www.jstatsoft.org/v05/i08">
 	Ziggurat Method by Marsaglia and Tsang
       </url>
       on top of the uniform distribution algorithm.
     </p>
-    <p>For some algorithms, jump functions are provided for generating
-        non-overlapping sequences for parallel computations.
-        The jump functions perform calculations
-        equivalent to perform a large number of repeated calls
-        for calculating new states. </p>
+    <p>
+      For most algorithms, jump functions are provided for generating
+      non-overlapping sequences for parallel computations.
+      The jump functions perform calculations
+      equivalent to perform a large number of repeated calls
+      for calculating new states.
+    </p>
 
     <p>The following algorithms are provided:</p>
 
     <taglist>
+      <tag><c>exsss</c></tag>
+      <item>
+        <p>Xorshift116**, 58 bits precision and period of 2^116-1</p>
+        <p>Jump function: equivalent to 2^64 calls</p>
+	<p>
+	  This is the Xorshift116 generator combined with the StarStar scrambler
+	  from the 2018 paper by David Blackman and Sebastiano Vigna:
+	  <url href="http://vigna.di.unimi.it/ftp/papers/ScrambledLinear.pdf">
+	    Scrambled Linear Pseudorandom Number Generators
+	  </url>
+	</p>
+	<p>
+	  The generator does not need 58-bit rotates so it is faster
+	  than the Xoroshiro116 generator, and when combined with
+	  the StarStar scrambler it does not have any weak low bits
+	  like <c>exrop</c> (Xoroshiro116+).
+	</p>
+	<p>
+	  Alas, this combination is about 10% slower than <c>exrop</c>,
+	  but is despite that the default algorithm thanks to its
+	  statistical qualities.
+	</p>
+      </item>
+      <tag><c>exro928ss</c></tag>
+      <item>
+        <p>Xoroshiro928**, 58 bits precision and a period of 2^928-1</p>
+        <p>Jump function: equivalent to 2^512 calls</p>
+	<p>
+	  This is a 58 bit version of Xoroshiro1024**,
+	  from the 2018 paper by David Blackman and Sebastiano Vigna:
+	  <url href="http://vigna.di.unimi.it/ftp/papers/ScrambledLinear.pdf">
+	    Scrambled Linear Pseudorandom Number Generators
+	  </url>
+	  that on a 64 bit Erlang system executes only about 40% slower than
+	  the default <c>exsss</c> algorithm but with much longer period
+	  and better statistical properties, and on the flip side
+	  a larger state.
+	</p>
+	<p>
+	  Many thanks to Sebastiano Vigna for his help with
+	  the 58 bit adaption.
+	</p>
+      </item>
       <tag><c>exrop</c></tag>
       <item>
         <p>Xoroshiro116+, 58 bits precision and period of 2^116-1</p>
@@ -83,7 +129,7 @@
     </taglist>
 
     <p>
-      The default algorithm is <c>exrop</c> (Xoroshiro116+).
+      The default algorithm is <c>exsss</c> (Xorshift116**).
       If a specific algorithm is
       required, ensure to always use <seealso marker="#seed-1">
       <c>seed/1</c></seealso> to initialize the state.
@@ -154,19 +200,19 @@ R1 = rand:uniform(),</pre>
     <p>Use a specified algorithm:</p>
 
     <pre>
-_ = rand:seed(exs1024s),
+_ = rand:seed(exs928ss),
 R2 = rand:uniform(),</pre>
 
     <p>Use a specified algorithm with a constant seed:</p>
 
     <pre>
-_ = rand:seed(exs1024s, {123, 123534, 345345}),
+_ = rand:seed(exs928ss, {123, 123534, 345345}),
 R3 = rand:uniform(),</pre>
 
    <p>Use the functional API with a non-constant seed:</p>
 
    <pre>
-S0 = rand:seed_s(exrop),
+S0 = rand:seed_s(exsss),
 {R4, S1} = rand:uniform_s(S0),</pre>
 
    <p>Textbook basic form Box-Muller standard normal deviate</p>
@@ -195,8 +241,9 @@ SND0 = math:sqrt(-2 * math:log(R5)) * math:cos(math:pi() * R6)</pre>
     </note>
 
     <p>
-      For all these generators the lowest bit(s) has got
-      a slightly less random behaviour than all other bits.
+      For all these generators except <c>exro928ss</c> and <c>exsss</c>
+      the lowest bit(s) has got a slightly less
+      random behaviour than all other bits.
       1 bit for <c>exrop</c> (and <c>exsp</c>),
       and 3 bits for <c>exs1024s</c>.
       See for example the explanation in the
@@ -211,7 +258,7 @@ up to (and included) 16TB, with the exception of binary rank tests,
 which fail due to the lowest bit being an LFSR; all other bits pass all
 tests. We suggest to use a sign test to extract a random Boolean value.</pre>
     <p>
-      If this is a problem; to generate a boolean
+      If this is a problem; to generate a boolean with these algorithms
       use something like this:
     </p>
     <pre>(rand:uniform(16) > 8)</pre>
@@ -254,21 +301,50 @@ tests. We suggest to use a sign test to extract a random Boolean value.</pre>
       </desc>
     </datatype>
     <datatype>
-      <name name="exs64_state"/>
-      <desc><p>Algorithm specific internal state</p></desc>
+      <name name="seed"/>
+      <desc>
+	<p>
+	  A seed value for the generator.
+	</p>
+	<p>
+	  A list of integers sets the generator's internal state directly,
+	  after algorithm-dependent checks of the value
+	  and masking to the proper word size.
+	</p>
+	<p>
+	  An integer is used as the initial state for a SplitMix64 generator.
+	  The output values of that is then used for setting
+	  the generator's internal state
+	  after masking to the proper word size
+	  and if needed avoiding zero values.
+	</p>
+	<p>
+	  A traditional 3-tuple of integers seed is passed through
+	  algorithm-dependent hashing functions to create
+	  the generator's initial state.
+	</p>
+      </desc>
     </datatype>
     <datatype>
       <name name="exsplus_state"/>
       <desc><p>Algorithm specific internal state</p></desc>
     </datatype>
     <datatype>
-      <name name="exs1024_state"/>
+      <name name="exro928_state"/>
       <desc><p>Algorithm specific internal state</p></desc>
     </datatype>
     <datatype>
       <name name="exrop_state"/>
       <desc><p>Algorithm specific internal state</p></desc>
     </datatype>
+    <datatype>
+      <name name="exs1024_state"/>
+      <desc><p>Algorithm specific internal state</p></desc>
+    </datatype>
+    <datatype>
+      <name name="exs64_state"/>
+      <desc><p>Algorithm specific internal state</p></desc>
+    </datatype>
   </datatypes>
 
   <funcs>