SCALAR_
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The SCALAR_ function multiples each element in a vector with a scalar value.
Syntax
SCALAR_VECTOR_MUL(scalar_value, vector_expression)
Arguments
-
scalar_: A scalar value.value
-
vector_: An expression that evaluates to a vector.expression Vectors can be stored in SingleStore using the BLOBtype (BLOB Types).
Return Type
The function returns the type of the second argument.
Using SCALAR_
The following examples and descriptions show the use of SCALAR_ to multiply the a vector by a scalar when the elements of the vector are stored as a BLOB.
Example 1 - BLOB Argument
Create a table with a column of type BLOB to store the vectors.vec and type BLOB, will store the vectors.BLOBs, hence the column of type BLOB named vec.
Then use the JSON_ built-in function to easily insert properly formatted vectors.
CREATE TABLE vectors_b (id int, vec BLOB not null);INSERT INTO vectors_b VALUES (1, JSON_ARRAY_PACK('[0.1, 0.8, 0.2, 0.555]'));INSERT INTO vectors_b VALUES (2, JSON_ARRAY_PACK('[0.45, 0.55, 0.495, 0.5]'));
The following query multiples the vectors in the vectors_ table by 10 and uses JSON_ to see the results in JSON format.
SELECT id, JSON_ARRAY_UNPACK(SCALAR_VECTOR_MUL(10, vec)) as scalar_mulFROM vectors_bORDER BY id;
+------+------------------------+
| id | scalar_mul |
+------+------------------------+
| 1 | [1,8,2,5.55000019] |
| 2 | [4.5,5.5,4.94999981,5] |
+------+------------------------+JSON_ was used here to output the vectors in readable format because VECTOR_ returns a BLOB when its second argument is a BLOB.
The following query multiples the vectors in the vectors_ table by 10 and uses HEX to view the results in hexadecimal format.
SELECT id, HEX(SCALAR_VECTOR_MUL(10, vec)) as scalar_mulFROM vectors_bORDER BY id;
+------+----------------------------------+
| id | scalar_mul |
+------+----------------------------------+
| 1 | 0000803F00000041000000409A99B140 |
| 2 | 000090400000B04066669E400000A040 |
+------+----------------------------------+Using Suffixes for Other Element Types with BLOBs
The default element type for vector storage and processing is 32-bit floating point (F32).
You can specify the datatype of the vector elements to be used in the operation by adding a suffix to the function._.
When using a suffix, the return type will be the type of the suffix.
The following table lists the suffixes and their data type.
|
Suffix |
Data Type |
|---|---|
|
|
8-bit signed integer |
|
|
16-bit signed integer |
|
|
32-bit signed integer |
|
|
64-bit signed integer |
|
|
32-bit floating-point number (IEEE standard format) |
|
|
64-bit floating-point number (IEEE standard format) |
Example 2 - BLOBs with 16-bit Integers
Below is an example of using JSON_ and SCALAR_ with 16-bit signed integers.
First create a table of vectors stored as 16-bit integers._ suffix on JSON_.
CREATE TABLE vectors_b_i (id int, vec BLOB not null);INSERT INTO vectors_b_i VALUES (1, JSON_ARRAY_PACK_I16('[1, 3, 2, 5]'));INSERT INTO vectors_b_i VALUES(2, JSON_ARRAY_PACK_I16('[23, 4, 1, 8]'));
This following query multiplies the vectors in the vectors_ table by the scalar 10.
SELECT id, JSON_ARRAY_UNPACK_I16(SCALAR_VECTOR_MUL_I16(10, vec)) AS scalar_mulFROM vectors_b_iORDER BY id;
+------+-----------------+
| id | scalar_mul |
+------+-----------------+
| 1 | [10,40,80,160] |
| 2 | [20,50,100,150] |
+------+-----------------+Note
Be sure that the suffixes you use to pack the vector data match the suffixes you use to unpack the data and the suffixes you use on functions to process that data.
Formatting Binary Vector Data for BLOBs
When using the BLOB type for vector operations, vector data can be formatted using JSON_.BLOBs.BLOB containing packed numbers in little-endian byte order.BLOBs can be of any length; however, the input blob length must be divisible by the size of the packed vector elements (1, 2, 4 , or 8 bytes, depending on the vector element).
Related Topics
Last modified: April 23, 2024