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Feeding (2nd-dimension)

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mapping
intro

DNA Recombination

This imajinary unit is the product of reciprocal complex numbers of the trivial and complex roots that goes recursively with their residual objects. By the nature such as DNA this residual is taken as genetic exchange to generate a better recombination.

Recombination is a process that results in genetic exchange between chromosomes or regions. Recombination counteracts physical linkage between adjacent genes, thereby reducing genetic hitchhiking (Wikipedia).

Recombination can also generate particular types of mutations if chromosomes are misaligned. Recombination involves the breakage and rejoining of two chromosomes (M and F) to produce two re-arranged chromosomes (C1 and C2).

The result of genes results in more efficient selection, meaning that regions with higher recombination will harbor fewer detrimental mutations, more selectively favored variants, and fewer errors in replication and repair (Wikipedia).

Consider that by the True Prime Pairs the 36 is the smallest square expressible as the sum of consecutive prime in two (2) ways of 4 (four) primes and 2 (two) primes.

2nd identity (objects) = 500 x 2/(2+3) = 500 x 2/5 = 200 objects

``````\$True Prime Pairs:
(5,7), (11,13), (17,19)

layer|  i  |   f
-----+-----+---------
|  1  | 5
1  +-----+
|  2  | 7
-----+-----+---  } 36 » 6® by 4 primes
|  3  | 11
2  +-----+
|  4  | 13
-----+-----+---------
|  5  | 17
3  +-----+     } 36 » 6® by 2 primes --------------------
|  6  | 19                                            |
-----+-----+---------                                      |
|
|
layer | node | sub |  i  |  f                               |
------+------+-----+----------
|      |     |  1  | -----------------------   71 by 2 identities √
|      |  1  +-----+                        |
|  1   |     |  2  | (5)                    |
|      |-----+-----+                        |
|      |     |  3  |                        |
1   +------+  2  +-----+----                    |
|      |     |  4  |                        |
|      +-----+-----+                        |
|  2   |     |  5  | (7)                    |
|      |  3  +-----+                        |
|      |     |  6  |                        | 11x
------+------+-----+-----+------      } (36)      |
|      |     |  7  |                        |
|      |  4  +-----+                        |
|  3   |     |  8  | (11)                   |
|      +-----+-----+                        |
|      |     |  9  |                        |
2   +------|  5  +-----+-----                   |
|      |     |  10 |                        |
|      |-----+-----+                        |
|  4   |     |  11 | (13) ------------------   71 by 4 identities √
|      |  6  +-----+
|      |     |  12 |---------------------  (72 - 2) by 1 identity √
------+------+-----+-----+
|      |     |  13 |
|      |  7  +-----+
|  5   |     |  14 | (17)
|      |-----+-----+
|      |     |  15 |
3   +------+  8  +-----+-----
|      |     |  16 |
|      |-----+-----+
|  6   |     |  17 | (19)
|      |  9  +-----+
|      |     |  18 |---------------------  (72 - 4) by 1 identity √
------|------|-----+-----+
``````

Since the position of 19 acts as the exchange base then a new recombination would be re-arranged which is resulting a linkage between 2 (two) and four (4) of prime identities aligned by the residual tensor of 71.

(2 x 32 x 109) − (2 x 32 x 89) = 360

``````layer | node | sub |  i  |  f
------+------+-----+----------                                               ---
|      |     |  1  | 71 (2,3) √ ------------                            |
|      |  1  +-----+                        |                           |
|  1   |     |  2  |                        |                          (5)
|      |-----+-----+                        |                           |
|      |     |  3  |                        |                           |
1   +------+  2  +-----+----                    |                          ---
|      |     |  4  |                        |                           |
|      +-----+-----+                        |                           |
|  2   |     |  5  |                        |                          (7)
|      |  3  +-----+                        |                           |
|      |     |  6  |                        | {6®} √                    |
------+------+-----+-----+------      } (36)      |                          ---
|      |     |  7  |                        |                           |
|      |  4  +-----+                        |                           |
|  3   |     |  8  |                        |                         (11)
|      +-----+-----+                        |                           |
|      |     |  9  |                        |                           |
2   +------|  5  +-----+-----                   |                          ---
|      |     |  10 |                        |                           |
|      |-----+-----+                        |                           |
|  4   |     |  11 | 71 (29,30,31,32) √ ----                          (13)
|      |  6  +-----+                                                    |
|      |     |  12 | {70} (36)                                          |
------+------+-----+-----+------------------                                 ---
|      |     |  13 |                                                    |
|      |  7  +-----+                                                    |
|  5   |     |  14 |                                                  (17)
|      |-----+-----+                                                    |
|      |     |  15 |                                                    |
3   +------+  8  +-----+-----       } (36)                                 ---
|      |     |  16 |                                                    |
|      |-----+-----+                                                    |
|  6   |     |  17 | 100 (10 x 500/100)                                (19)
|      |  9  +-----+                                                    |
|      |     |  18 | 10 x 500/100 (68)                                  |
------|------|-----+-----+------                                             ---
``````

By the 2x25=500/10=50 and 10x10=11+89=100 which is identified from the factorization of 285+286=571 object. Meanwhile 32 is expanded to 32+36=68. So finally the tensor of 71 will be derived to 7×10=68+2=72-2=70 at the center of the scheme.

(10th)th prime = 29th prime = 109 = 110 - 1

``````layer | node | sub |  i  |  f
------+------+-----+----------                                               ---
|      |     |  1  | 71 (2,3) --------------                            |
|      |  1  +-----+                        |                           |
|  1   |     |  2  |                        |                          (5)
|      |-----+-----+                        |                           |
|      |     |  3  |                        |                           |
1   +------+  2  +-----+----                    |                          ---
|      |     |  4  |                        |                           |
|      +-----+-----+                        |                           |
|  2   |     |  5  |                        |                          (7)
|      |  3  +-----+                        |                           |
|      |     |  6  |                        | {6®} = 11 x 30            |
------+------+-----+-----+------      } (36)      |                          ---
|      |     |  7  |                        |                           |
|      |  4  +-----+                        |                           |
|  3   |     |  8  |--- 109 √ ---           | 110-1 by 1 identity √    (11)
|      +-----+-----+             |          |                           |
|      |     |  9  |---- 69 √    | {2®} √   |  71-2 by 1 identity √     |
2   +------|  5  +-----+-----        |          |                          ---
|      |     |  10 |--- 109 √ ---           | 110-1 by 1 identity √     |
|      |-----+-----+                        |                           |
|  4   |     |  11 | 71 (29,30,31,32) ------                          (13)
|      |  6  +-----+                                                    |
|      |     |  12 |                                                    |
------+------+-----+-----+------------------ 329 = 330 - 1 = 309 + 20        ---
|      |     |  13 |                                                    |
|      |  7  +-----+                                                    |
|  5   |     |  14 |                                                  (17)
|      |-----+-----+                                                    |
|      |     |  15 |                                                    |
3   +------+  8  +-----+-----                                              ---
|      |     |  16 |                                                    |
|      |-----+-----+                                                    |
|  6   |     |  17 | 100(50)                                          (19)
168 √ |      |  9  +-----+                                                    |
|     |      |     |  18 | 50(68)                                             |
------|------|-----+-----+------                                             ---
``````

Palindromic behaviour

The main scheme is two (2) by five (5) objects expressed by three (3) operation of addition (2+5=7), multiplication (2x5=10) and exponentiation (5²=25 and 2^5=32). Here we correlate 11's additive sums with 3960, 7920 and the first 1000 prime numbers.

In the matrix pictured below, we list the first 24 elements of our domain, take their squares, calculate the modulo 90 congruence and digital roots of each square, and display the digital root factorization dyad for each square (and map their collective bilateral 9 sum symmetry) (Primesdemystified).

Deep Symmetry

Diving deeper yet, here we show the absolute value delta differences of simple reversal sets in relation to primes 89 and 109 contextualized with the first 1000 prime numbers.

Achim Frenzel's popular scientific book, which is illustrated with numerous graphics, is treated as an approach that should definitely be further researched by science. In addition, as a future-oriented project, the book is intended to lead to an interdisciplinary doctorate and therefore refers to its own website as an Internet discussion platform.

An Independent claim is also included for the localization and determination of (I), or their material structures, by graphical representation of base sequences on various media, based on the new assignments and the derived vibrations and amplitudes (Open Patent Data DE19991049059).

See on the left side contains of odd numbers less and equal to 19 while the right is the even number less and equal to 18. By the left side only 9 and 15 that are not primes

Since this bilateral sums of 9 are laid on the prime spiral sieve then the symmetrical behaviour will occur by three (3) rotations of 360. By the 20 objects of 1st prime identity, this 360 will then be separated to 3x100=300 and 3x20=60.

89^2 - 1 = 7921 - 1 = 7920 = 22 x 360 = 66 x 120

By the 500 objects of the 2nd prime identity, the 300 goes to the 29 while the rest of 200 goes as 3rd prime identity to the 89. So the involved objects on the both sides are 300+29=329 and 200+89=289 thus the total will be 329+289=618 objects.

`````` |   mapping    |     feeding     |  lexering    |  parsering   |   syntaxing   |  grammaring  |
|------------- 36' --------------|----------------------------36' ----------------------------|
|     19'      |        17'      |      13'     |      11'     |       7'      |       5'     |
+----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
|  1 |  2 |  3 | 4 |  5 |  6 | 7 | 8 |  9 |  10 | 11 | 12 | 13 | 14 | 15 |  16 | 17 | 18 | 19 |
+----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
|  2 | 60 | 40 | 1 | 30 | 30 | 5 | 1 | 30 | 200 |  8 | 40 | 50 |  1 | 30 | 200 |  8 | 10 | 40 |
+----+----+----+---+----+----+---+---+----+-----+----+----+----+----+----+-----+----+----+----+
|  ° |ΔΔΔΔ  ΦΦ | •   ΔΔ   ΔΔ   ¤ | •   ΔΔ   ΦΦΦ    Φ   ΦΦ  ¤¤¤¤|  •   ΔΔ   ΦΦΦ    Φ   ¤¤   ΦΦ |

|----- 102  ---|-----  66  ------|-------- 329 = 7 x 47 -------|- 289 = (8+9)² = 2 & (2³+9²) -|
|---2x3x(8+9)--|--- 2x3x(2+9) ---|---- (1+2) & (2x9)+(2+9) ----|------ 2 & (8x9)+(8+9) -------|
|--------- 168 = π(1000) --------|------ 1229 = π(10000) ------|------ π(89²) = 1000 ---------|
|--------- 168 = π(618xΦ) -------|----- 618 = 1000/Φ = 1000x1000/1618 = 10^6/(2x8)&(2x9) -----|

``````

We color-code the six hexagons, identifying patterns in key number sequences, including the Fibonacci sequence, powers of two and three, and power of pi. For the series of consecutive powers of pi, we have found that no two fall within the same six-cell hexagon. We have computed this for pi^32, which has less than a 1/400 chance of occurring randomly.

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3
4
lexer
intro

Mass vs Gap (Δ)

This section will be the last one of our presentation of 18th prime identity. Here we are going to explain one more item that is still open or undiscussed which is about what the 77 objects are going to do within the 19 vs 18 Scenario.

15 + 35 + 28 = 15 + 63 = 78 = 77 + 1

``````---+-----+-----
1 | 1   | 15
---+-----+-----
2 | 16  | 25
---+-----+-----
3 | 26  | 50
---+-----+-----
4 | 51  | 84
---+-----+-----
5 | 85  | 99
---+-----+-----
``````
``````\$True Prime Pairs:
(5,7), (11,13), (17,19)

layer|  i  |   f
-----+-----+---------
|  1  | 5
1  +-----+
|  2  | 7
-----+-----+---  } 36 » 6®
|  3  | 11
2  +-----+
|  4  | 13
-----+-----+---------
|  5  | 17
3  +-----+     } 36 » 6®
|  6  | 19
-----+-----+---------
``````

In many ways, a black hole acts like an ideal black body, as it reflects no light. Here is an animated simulation of a Schwarzschild black hole with a galaxy passing behind. Around the time of alignment, extreme gravitational lensing of the galaxy is observed.

``````                largest part=21 → 11+13+12=36 →  MEC30
↓                      |
---+-----+-----+-----+-----+                   ↓
1 | 19  | 1   | 20  | 21  |-------------------|-----
---+-----+-----+-----+-----+                   ↓     |
2 | 18  | 21  | 39  | 60  |-------------------      |
---+-----+-----+-----+-----+                   |     |
3 |{63} | 40  | 103 | 143 |-------------      |     |
---+-----+-----+-----+-----+             |     |     |
4 | 37  | 104 | 141 | 245 |-------      |     |     |
---+-----+-----+-----+-----+       |     |     |     |
5 | 10* | 142 | 152 | 294 |- 11** | 13  | 12  | 12  | 18
---+-----+-----+-----+-----+       |     |     |     |
6 | 24  | 153 | 177 | 332 |-------      |     |     |
---+-----+-----+-----+-----+             |     |     |
7 | 75  | 178 | 253 | 431 |-------------      |     |
---+-----+-----+-----+-----+                   |     |
8 | 30  | 254 | 284 | 538 |-------------------      |
---+-----+-----+-----+-----+                   ↓     |
9 | 1   | 285 | 286 | 571 |-------------------|-----
===+=====+=====+=====+=====+                   ↓
45 | 277 |                      ← 11+13+12=36 ←  MEC30
---+-----+                                     |
↑
Note:
10* stands as the central rank
11** stands as the central parts
``````

According to the observations made by NASA, Astronomers have uncovered TON 618 as the record breaking supermassive black hole, weighing 66 trillion and brilliantly as 140 trillion times that of the Sun, making it one of the brightest object in the Universe.

If the statement that it is indeed located at the center of our universe then the said black hole would behave as the exchange position between twin (2) universes. This would for sure strengthen the syntax algorithm of our implementation.

7 x 11 = 77 = 99 - 22 = 11 x (9 -2)

``````  #8  |------- 5® --------|------------ 7® --------------|
| 1 |-------------- 77 = 4² + 5² + 6² -------------|
------+---|---+---+---+---+---+---+---+---+----+----+----+
repo |{1}|{2}| 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 |{12}| 1,77
------+---|---+---+---+---+---+---+---+---+----+----+----+
user | 7 | - | - | - | - | 7 | 8 | - | - |  8 |  8 |  3 |
------+---|---+---+---+---+---+---+---+---+----+----+----+ 7,78
main | - | 9 | 7 | 9 | 6 | - | - | 8 | 5 |  - |  - |  - |
------+---|---+---+---+---+---+---+---+---+----+----+----+
Δ | Δ             |                      Δ  |   Δ
Φ17|Φ29            |                    96-99|  100 - 123 ({24})
|--- A,T,G,C ---|                         |  └── 100 - 103 (4x) » 100
Δ    2x2 = 4x   |-------  2x3 = 6x -------|  └── 104 - 109 (6x) » 30
{98}                                       |  └── 110 - 123 (14x)» 70

``````
```Direction:
- The initial of 168 & 329 brings the 102 as 100+2 to π(π(10000))-1=200 or 100 x 2.
- Then the 289 lets this 100x2 to 100² so it brings 100 to 10000 by the power of 2.
- At the last it will be separated by the scheme of 168 to 102 goes back 100 and 2.

Conclution:
- All of the other primes than 2 is 1 less than the number n times the number of 2.
- Those Mersenne primes is generated as 1 less than the power n of the number of 2.
- Thus they will conseqently be carried out by the same scheme of this number of 2.```

Perceptually, everything is separate and finite. But actually, everything is connected and infinite. It is this infinite connection, despite our limited finite perceptions, that makes us one with the cosmos.

Primes Platform

Each result goes to the 9th object of prime 67 which is 19th prime. This mass gap of (Δ > 0) is actually the quantum way of our algorithm which is discused in details by the 19th prime identity.

So when the cycle has passed the 10th object then the 43 objects will be laid by 9 collumns and slightly forming bilateral 9 sum which facilitate them to finaly generate 1000 primes.

1 instance + 7 blocks + 29 flats + 77 rooms = 114 objects

``````True Prime Pairs:
(5,7), (11,13), (17,19)

-----+-----+-----+-----+-----+     -----------------------------------------------
{786}| 1,2 |  2  | 2,3 | 3,4 | {19}                                          |
-----+-----+-----+-----+-----+                                               |
{86}|  4  | 4,5 | 5,6 |{6,7}| 17                                        Base Zone
+-----+-----+-----+-----+                                               |
{78}|{7,8}| 8,9 | 12 (M dan F) ----> Δ                                      |
+-----+-----+-----+                                               -----------
{67}| 9,11|11,12|12,14| 11 <----------- Mid Zone                            |
----+-----+-----+-----+-----+                                               |
{6}|15,16|17,18|18,20|21,22| 19                                      Mirror Zone
+-----+-----+-----+-----+                                               |
{8}|23,25|25,27|27,29| 18                                                  |
+-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
{7}|29,33|33,36|36,39|39,41|41,45|46,51|51,57|58,66|{67,77}| 43 (C1 dan C2)<---Δ
-----+-----+-----+-----+-----+-----+-----+-----+-----+-------+         -----------
|  1     2     3  |   4     5     6 |   7     8      9  |
|------ 29' ------|--------------- 139' ----------------|
|------ 102¨ -----|---------------  66¨ ----------------|
``````

When recombination is occur then the prime 13 is forced to → 12 where the impact (Δ1) goes to 18+13+12=43 on the last 7th row forming the Primes Platform. Thus we got 109 objects including for the 7 rows back to the original stage.

``````  Tabulate Prime by Power of 10
loop(10) = π(10)-π(1) = 4-0 = 4
loop(100) = π(100)-π(10)-1th = 25-4-2 = 19
loop(1000) = π(1000) - π(100) - 10th = 168-25-29 = 114

-----------------------+----+----+----+----+----+----+----+----+----+-----
True Prime Pairs Δ    |  1 |  2 |  3 |  4 |  5 |  6 |  7 |  8 |  9 | Sum
=======================+====+====+====+====+====+====+====+====+====+=====
19 → π(10)            |  2 |  3 |  5 |  7 |  - |  - |  - |  - |  - | 4th  4 x Root
-----------------------+----+----+----+----+----+----+----+----+----+-----
17 → π(20)            | 11 | 13 | 17 | 19 |  - |  - |  - |  - |  - | 8th  4 x Twin
-----------------------+----+----+----+----+----+----+----+----+----+-----
13 → π(30) → 12 (Δ1)  | 23 | 29 |  - |  - |  - |  - |  - |  - |  - |10th
=======================+====+====+====+====+====+====+====+====+====+===== 1st Twin
11 → π(42)            | 31 | 37 | 41 |  - |  - |  - |  - |  - |  - |13th
-----------------------+----+----+----+----+----+----+----+----+----+----- 2nd Twin
7 → π(60) → 19 (Δ12) | 43 | 47 | 53 | 59 |  - |  - |  - |  - |  - |17th
-----------------------+----+----+----+----+----+----+----+----+----+----- 3rd Twin
5 → π(72) → 18 (Δ13) | 61 | 67 | 71 |  - |  - |  - |  - |  - |  - |20th
=======================+====+====+====+====+====+====+====+====+====+===== 4th Twin
3,2 → 18+13+12 → 43  | 73 | 79 | 83 | 89 | 97 | 101| 103| 107| 109|29th
=======================+====+====+====+====+====+====+====+====+====+=====
Δ                                                            Δ
12+13+(18+18)+13+12   ← 36th-Δ1=151-1=150=100+2x(13+12)   ←   30th = 113 = 114-1

Sequence:
By the next layer the 89² will become 89 and 5 become 5² or 25.
This 89 and 25 are in the same layer with total of 114 or prime 619
So sequence from the first prime is 1,4,7,10,29,68,89,114,139,168,329,618.
``````

[(6 + 6) x 6] + [6 + (6 x 6)] = 72 + 42 = 71 + 42 + 1 = 114 objects

``````The Prime Recycling ζ(s):
(2,3), (29,89), (36,68), (72,42), (100,50), (2,3), (29,89), ...**infinity**
----------------------+-----+-----+-----+                                    ---
7 --------- 1,2:1|   1 |  30 |  40 | 71 (2,3) ‹-------------@----        |
|                +-----+-----+-----+-----+                        |      |
|  8 ‹------  3:2|   1 |  30 |  40 |  90 | 161 (7) ‹---           |      5¨  encapsulation
|  |             +-----+-----+-----+-----+             |          |      |
|  |  6 ‹-- 4,6:3|   1 |  30 | 200 | 231 (10,11,12) ‹--|---       |      |
|  |  |          +-----+-----+-----+-----+             |   |      |     ---
--|--|-----» 7:4|   1 |  30 |  40 | 200 | 271 (13) --›    | {5®} |      |
|  |          +-----+-----+-----+-----+                 |      |      |
--|---› 8,9:5|   1 |  30 | 200 | 231 (14,15) ---------›       |      7¨  abstraction
289        |          +-----+-----+-----+-----+-----+                  |      |
|          ----› 10:6|  20 |   5 |  10 |  70 |  90 | 195 (19) --› Φ   | {6®} |
--------------------+-----+-----+-----+-----+-----+                  |     ---
67 --------› 11:7|   5 |   9 |  14 (20) --------› ¤               |      |
|                +-----+-----+-----+                              |      |
|  78 ‹----- 12:8|   9 |  60 |  40 | 109 (26) «------------       |     11¨  polymorphism
|  |             +-----+-----+-----+                       |      |      |
|  |  86‹--- 13:9|   9 |  60 |  69 (27) «-- Δ19 (Rep Fork) | {2®} |      |
|  |  |          +-----+-----+-----+                       |      |     ---
|  |   ---› 14:10|   9 |  60 |  40 | 109 (28) -------------       |      |
|  |             +-----+-----+-----+                              |      |
|   ---› 15,18:11|   1 |  30 |  40 | 71 (29,30,31,32) ----------        13¨  inheritance
329  |                +-----+-----+-----+                                     |
|   ‹--------- 19:12|  10 |  60 | {70} (36) ‹--------------------- Φ        |
-------------------+-----+-----+                                          ---
786 ‹------- 20:13|  90 |  90 (38) ‹-------------- ¤                      |
|                +-----+-----+                                           |
| 618 ‹- 21,22:14|   8 |  40 |  48 (40,41) ‹----------------------      17¨  class
|  |             +-----+-----+-----+-----+-----+                  |      |
|  | 594 ‹- 23:15|   8 |  40 |  70 |  60 | 100 | 278 (42) «--     |{6'®} |
|  |  |          +-----+-----+-----+-----+-----+             |    |     ---
--|--|-»24,27:16|   8 |  40 |  48 (43,44,45,46) ------------|----       |
|  |          +-----+-----+                               |           |
--|---› 28:17| 100 | {100} (50) ------------------------»           19¨  object
168        |          +-----+                                                 |
|         102 -› 29:18| 50  | 50(68) ---------> Δ18                           |
----------------------+-----+                                                ---
``````

The above is observed following the W0 (assumptions of relativistic quantum mechanics) for the Existence and Mass Gap which transform under the homogeneous group as a four-vector and has a mass gap Δ > 0.

Yang–Mills Existence and Mass Gap. Prove that for any compact simple gauge group G, a non-trivial quantum Yang–Mills theory exists on R^4 and has a mass gap Δ > 0 (Wikipedia).

Container-Optimized

``````\$ cat /etc/os-release

NAME="Container-Optimized OS"
ID=cos
KERNEL_COMMIT_ID=4c0ef99fbc74bd4a4dce8851652be68038bec83e
VERSION=105
VERSION_ID=105
BUILD_ID=17412.101.4
``````

Pipe to sort -V for sorted output. Ex: to see all executables in your PATH on your system, and all aliases, all sorted, run: compgen -c | sortsee all executables in your PATH

``````\$ find \${PATH//:/ } -maxdepth 1 -executable | sort

find: ‘/usr/local/bin’: No such file or directory
find: ‘/opt/bin’: No such file or directory
/bin
/bin/attr
/bin/basename
/bin/bash
/bin/bunzip2
/bin/bzcat
/bin/bzip2
/bin/cat
/bin/chacl
/bin/chgrp
/bin/chmod
/bin/chown
/bin/chroot
/bin/cp
/bin/cut
/bin/dash
/bin/date
/bin/dd
/bin/df
/bin/dir
/bin/dirname
/bin/dmesg
/bin/dnsdomainname
/bin/du
/bin/echo
/bin/egrep
/bin/env
/bin/expr
/bin/false
/bin/fgrep
/bin/findmnt
/bin/getfacl
/bin/getfattr
/bin/getsubids
/bin/grep
/bin/groups
/bin/gsed
/bin/gunzip
/bin/gzip
/bin/hostname
/bin/ifconfig
/bin/ip
/bin/keyctl
/bin/kill
/bin/kmod
/bin/ln
/bin/ls
/bin/lsblk
/bin/lsmod
/bin/mkdir
/bin/mkfifo
/bin/mknod
/bin/mktemp
/bin/modinfo
/bin/more
/bin/mount
/bin/mountpoint
/bin/mv
/bin/nano
/bin/netstat
/bin/ps
/bin/pwd
/bin/rbash
/bin/rm
/bin/rmdir
/bin/rnano
/bin/route
/bin/run-parts
/bin/sed
/bin/seq
/bin/setfacl
/bin/setfattr
/bin/sh
/bin/sleep
/bin/sort
/bin/stty
/bin/su
/bin/sync
/bin/tail
/bin/tar
/bin/tempfile
/bin/touch
/bin/tr
/bin/true
/bin/tty
/bin/umount
/bin/uname
/bin/vdir
/bin/wc
/bin/wdctl
/bin/yes
/bin/zcat
/usr/bin
/usr/bin/2to3
/usr/bin/2to3-3.8
/usr/bin/[
/usr/bin/arch
/usr/bin/argon2
/usr/bin/aulast
/usr/bin/aulastlog
/usr/bin/ausyscall
/usr/bin/auvirt
/usr/bin/awk
/usr/bin/b2sum
/usr/bin/base32
/usr/bin/base64
/usr/bin/basename
/usr/bin/basenc
/usr/bin/bashbug
/usr/bin/brotli
/usr/bin/bsdcat
/usr/bin/bsdcpio
/usr/bin/bsdtar
/usr/bin/busctl
/usr/bin/bzcmp
/usr/bin/bzdiff
/usr/bin/bzegrep
/usr/bin/bzfgrep
/usr/bin/bzgrep
/usr/bin/bzip2recover
/usr/bin/bzless
/usr/bin/bzmore
/usr/bin/c_rehash
/usr/bin/cal
/usr/bin/captest
/usr/bin/captoinfo
/usr/bin/cbfstool
/usr/bin/cbmem
/usr/bin/cgpt
/usr/bin/chage
/usr/bin/chardetect
/usr/bin/chattr
/usr/bin/chcon
/usr/bin/chfn
/usr/bin/chmem
/usr/bin/choom
/usr/bin/chromeos-pgmem
/usr/bin/chromeos-tpm-recovery
/usr/bin/chronyc
/usr/bin/chroot
/usr/bin/chrt
/usr/bin/chsh
/usr/bin/cis_scanner
/usr/bin/cksum
/usr/bin/clear
/usr/bin/cloud-id
/usr/bin/cloud-init
/usr/bin/cloud-init-per
/usr/bin/cmp
/usr/bin/col
/usr/bin/colcrt
/usr/bin/colrm
/usr/bin/column
/usr/bin/comm
/usr/bin/compile_et
/usr/bin/containerd
/usr/bin/containerd-shim
/usr/bin/containerd-shim-runc-v1
/usr/bin/containerd-shim-runc-v2
/usr/bin/containerd-stress
/usr/bin/core2md
/usr/bin/coredumpctl
/usr/bin/coreutils
/usr/bin/cos-extensions
/usr/bin/crictl
/usr/bin/cros_installer
/usr/bin/crosid
/usr/bin/crossystem
/usr/bin/csplit
/usr/bin/ctr
/usr/bin/curl
/usr/bin/cut
/usr/bin/cvtsudoers
/usr/bin/dbus-cleanup-sockets
/usr/bin/dbus-daemon
/usr/bin/dbus-launch
/usr/bin/dbus-monitor
/usr/bin/dbus-run-session
/usr/bin/dbus-send
/usr/bin/dbus-test-tool
/usr/bin/dbus-update-activation-environment
/usr/bin/dbus-uuidgen
/usr/bin/dev_debug_vboot
/usr/bin/diff
/usr/bin/diff-highlight
/usr/bin/diff3
/usr/bin/dir
/usr/bin/dircolors
/usr/bin/dirname
/usr/bin/docker
/usr/bin/docker-containerd
/usr/bin/docker-containerd-shim
/usr/bin/docker-credential-gcr
/usr/bin/docker-init
/usr/bin/docker-proxy
/usr/bin/docker-runc
/usr/bin/dockerd
/usr/bin/du
/usr/bin/dumpRSAPublicKey
/usr/bin/dump_fmap
/usr/bin/dump_kernel_config
/usr/bin/dumpsexp
/usr/bin/easy_install
/usr/bin/eject
/usr/bin/elogtool
/usr/bin/enable_dev_usb_boot
/usr/bin/env
/usr/bin/event_rpcgen.py
/usr/bin/ex
/usr/bin/expand
/usr/bin/expiry
/usr/bin/expr
/usr/bin/factor
/usr/bin/faillog
/usr/bin/fallocate
/usr/bin/filan
/usr/bin/file
/usr/bin/filecap
/usr/bin/fincore
/usr/bin/find
/usr/bin/flock
/usr/bin/fluent-bit
/usr/bin/fmt
/usr/bin/fold
/usr/bin/free
/usr/bin/ftdi_eeprom
/usr/bin/fusermount
/usr/bin/futility
/usr/bin/gapplication
/usr/bin/gbb_utility
/usr/bin/gdbm_dump
/usr/bin/gdbmtool
/usr/bin/gdbus
/usr/bin/getopt
/usr/bin/gfind
/usr/bin/gio
/usr/bin/gio-querymodules
/usr/bin/git
/usr/bin/git-cvsserver
/usr/bin/git-shell
/usr/bin/glib-compile-resources
/usr/bin/glib-compile-schemas
/usr/bin/glib-gettextize
/usr/bin/gobject-query
/usr/bin/gpasswd
/usr/bin/gpg-error
/usr/bin/gsettings
/usr/bin/gss-client
/usr/bin/gtester
/usr/bin/gxargs
/usr/bin/gzexe
/usr/bin/hexdump
/usr/bin/hmac256
/usr/bin/hostid
/usr/bin/hostnamectl
/usr/bin/id
/usr/bin/idle
/usr/bin/import-tars
/usr/bin/infocmp
/usr/bin/infotocap
/usr/bin/install
/usr/bin/inteltool
/usr/bin/ionice
/usr/bin/ipcmk
/usr/bin/ipcrm
/usr/bin/ipcs
/usr/bin/iptables-xml
/usr/bin/irqtop
/usr/bin/join
/usr/bin/journalctl
/usr/bin/jq
/usr/bin/jsondiff
/usr/bin/jsonpatch
/usr/bin/jsonpointer
/usr/bin/jsonschema
/usr/bin/kdestroy
/usr/bin/kernel-install
/usr/bin/kinit
/usr/bin/klist
/usr/bin/kpasswd
/usr/bin/kubectl
/usr/bin/kubelet
/usr/bin/last
/usr/bin/lastb
/usr/bin/lastlog
/usr/bin/less
/usr/bin/lessecho
/usr/bin/lesskey
/usr/bin/lesspipe
/usr/bin/line
/usr/bin/logger
/usr/bin/logname
/usr/bin/look
/usr/bin/lsattr
/usr/bin/lscpu
/usr/bin/lsipc
/usr/bin/lsirq
/usr/bin/lslocks
/usr/bin/lsmem
/usr/bin/lsns
/usr/bin/lsof
/usr/bin/lz4
/usr/bin/lz4c
/usr/bin/lz4cat
/usr/bin/lzcat
/usr/bin/lzcmp
/usr/bin/lzdiff
/usr/bin/lzegrep
/usr/bin/lzfgrep
/usr/bin/lzgrep
/usr/bin/lzless
/usr/bin/lzma
/usr/bin/lzmainfo
/usr/bin/lzmore
/usr/bin/mawk
/usr/bin/md5sum
/usr/bin/metrics_client
/usr/bin/mk_cmds
/usr/bin/mkfifo
/usr/bin/mktemp
/usr/bin/mpicalc
/usr/bin/namei
/usr/bin/nc
/usr/bin/netcap
/usr/bin/nettle-hash
/usr/bin/nettle-lfib-stream
/usr/bin/nettle-pbkdf2
/usr/bin/networkctl
/usr/bin/newgidmap
/usr/bin/newgrp
/usr/bin/newuidmap
/usr/bin/nice
/usr/bin/nl
/usr/bin/nohup
/usr/bin/nproc
/usr/bin/nsenter
/usr/bin/numfmt
/usr/bin/nvramtool
/usr/bin/od
/usr/bin/oomctl
/usr/bin/openssl
/usr/bin/passwd
/usr/bin/paste
/usr/bin/pathchk
/usr/bin/pcre2grep
/usr/bin/pcre2test
/usr/bin/pcregrep
/usr/bin/pcretest
/usr/bin/perf
/usr/bin/perfetto
/usr/bin/pg
/usr/bin/pgrep
/usr/bin/pidof
/usr/bin/pigz
/usr/bin/pinky
/usr/bin/pkcs1-conv
/usr/bin/pkill
/usr/bin/pmap
/usr/bin/portablectl
/usr/bin/pr
/usr/bin/printenv
/usr/bin/printf
/usr/bin/prlimit
/usr/bin/procan
/usr/bin/protoc-gen-go
/usr/bin/protoc-gen-go-grpc
/usr/bin/pscap
/usr/bin/ptx
/usr/bin/pv
/usr/bin/pwdx
/usr/bin/pwqcheck
/usr/bin/pwqfilter
/usr/bin/pwqgen
/usr/bin/pydoc
/usr/bin/pydoc3.8
/usr/bin/pyjwt
/usr/bin/pyserial-miniterm
/usr/bin/pyserial-ports
/usr/bin/python
/usr/bin/python-exec2c
/usr/bin/python3
/usr/bin/python3.8
/usr/bin/pyvenv
/usr/bin/realpath
/usr/bin/rename
/usr/bin/renice
/usr/bin/reset
/usr/bin/resolvectl
/usr/bin/rev
/usr/bin/rootdev
/usr/bin/rsync
/usr/bin/rsync-ssl
/usr/bin/runc
/usr/bin/runcon
/usr/bin/rview
/usr/bin/rvim
/usr/bin/scmp_sys_resolver
/usr/bin/scp
/usr/bin/script
/usr/bin/scriptlive
/usr/bin/scriptreplay
/usr/bin/sdiff
/usr/bin/seq
/usr/bin/setsid
/usr/bin/setterm
/usr/bin/sexp-conv
/usr/bin/sftp
/usr/bin/sg
/usr/bin/sha1sum
/usr/bin/sha224sum
/usr/bin/sha256sum
/usr/bin/sha384sum
/usr/bin/sha512sum
/usr/bin/shlibsign
/usr/bin/shred
/usr/bin/shuf
/usr/bin/slabtop
/usr/bin/sleep
/usr/bin/smbinfo
/usr/bin/socat
/usr/bin/sort
/usr/bin/sos
/usr/bin/sos-collector
/usr/bin/sosreport
/usr/bin/split
/usr/bin/ssh
/usr/bin/ssh-agent
/usr/bin/ssh-copy-id
/usr/bin/ssh-keygen
/usr/bin/ssh-keyscan
/usr/bin/stat
/usr/bin/stdbuf
/usr/bin/sudo
/usr/bin/sudoedit
/usr/bin/sudoreplay
/usr/bin/sum
/usr/bin/superiotool
/usr/bin/systemctl
/usr/bin/systemd-analyze
/usr/bin/systemd-cat
/usr/bin/systemd-cgls
/usr/bin/systemd-cgtop
/usr/bin/systemd-creds
/usr/bin/systemd-delta
/usr/bin/systemd-detect-virt
/usr/bin/systemd-dissect
/usr/bin/systemd-escape
/usr/bin/systemd-id128
/usr/bin/systemd-inhibit
/usr/bin/systemd-machine-id-setup
/usr/bin/systemd-mount
/usr/bin/systemd-notify
/usr/bin/systemd-nspawn
/usr/bin/systemd-path
/usr/bin/systemd-repart
/usr/bin/systemd-resolve
/usr/bin/systemd-run
/usr/bin/systemd-socket-activate
/usr/bin/systemd-stdio-bridge
/usr/bin/systemd-sysext
/usr/bin/systemd-tmpfiles
/usr/bin/systemd-umount
/usr/bin/tabs
/usr/bin/tac
/usr/bin/tail
/usr/bin/tee
/usr/bin/test
/usr/bin/tic
/usr/bin/timedatectl
/usr/bin/timeout
/usr/bin/tini
/usr/bin/toe
/usr/bin/toolbox
/usr/bin/top
/usr/bin/touch
/usr/bin/tpm-nvsize
/usr/bin/tpmc
/usr/bin/tput
/usr/bin/tr
/usr/bin/trace
/usr/bin/traced
/usr/bin/traced_probes
/usr/bin/truncate
/usr/bin/tset
/usr/bin/tsort
/usr/bin/tty
/usr/bin/ul
/usr/bin/ulockmgr_server
/usr/bin/uname
/usr/bin/unexpand
/usr/bin/uniq
/usr/bin/unlz4
/usr/bin/unlzma
/usr/bin/unpigz
/usr/bin/unshare
/usr/bin/unxz
/usr/bin/update_engine_client
/usr/bin/uptime
/usr/bin/userdbctl
/usr/bin/users
/usr/bin/utmpdump
/usr/bin/uuidgen
/usr/bin/uuidparse
/usr/bin/vbutil_firmware
/usr/bin/vbutil_kernel
/usr/bin/vbutil_key
/usr/bin/vbutil_keyblock
/usr/bin/vdir
/usr/bin/verity
/usr/bin/vi
/usr/bin/view
/usr/bin/vim
/usr/bin/vimdiff
/usr/bin/vmstat
/usr/bin/w
/usr/bin/watch
/usr/bin/wc
/usr/bin/wget
/usr/bin/whereis
/usr/bin/which
/usr/bin/who
/usr/bin/whoami
/usr/bin/x86_64-cros-linux-gnu-gio-querymodules
/usr/bin/xargs
/usr/bin/xmlcatalog
/usr/bin/xmllint
/usr/bin/xmlwf
/usr/bin/xxd
/usr/bin/xz
/usr/bin/xzcat
/usr/bin/xzcmp
/usr/bin/xzdec
/usr/bin/xzdiff
/usr/bin/xzegrep
/usr/bin/xzfgrep
/usr/bin/xzgrep
/usr/bin/xzless
/usr/bin/xzmore
/usr/bin/yat2m
/usr/bin/yes
/usr/bin/zcmp
/usr/bin/zdiff
/usr/bin/zegrep
/usr/bin/zfgrep
/usr/bin/zforce
/usr/bin/zgrep
/usr/bin/zless
/usr/bin/zmore
/usr/bin/znew
``````

System Storage

GitHub allows developers to run GitHub Actions workflows on your own runners. This Docker image allows you to create your own runners on Docker, you can enable Docker siblings by binding the host Docker daemon socket.

``````\$ cat /etc/os-release

PRETTY_NAME="Debian GNU/Linux 10 (buster)"
NAME="Debian GNU/Linux"
VERSION_ID="10"
VERSION="10 (buster)"
VERSION_CODENAME=buster
ID=debian
HOME_URL="https://www.debian.org/"
SUPPORT_URL="https://www.debian.org/support"
BUG_REPORT_URL="https://bugs.debian.org/"
``````

By default, the df command shows the disk space used and available disk space in kilobytes. To display information about disk drives in human-readable format (kilobytes, megabytes, gigabytes and so on), invoke the df command with the -h option

``````\$ df -h
Filesystem      Size  Used Avail Use% Mounted on
/dev/root       2.0G  1.1G  902M  54% /
devtmpfs        484M     0  484M   0% /dev
tmpfs           487M     0  487M   0% /dev/shm
tmpfs           195M  512K  195M   1% /run
tmpfs           487M  112K  487M   1% /etc/machine-id
tmpfs           256K     0  256K   0% /mnt/disks
tmpfs           487M     0  487M   0% /tmp
overlayfs       487M  112K  487M   1% /etc
/dev/sda8        11M   24K   11M   1% /usr/share/oem
/dev/sda1       5.7G  3.5G  2.2G  62% /mnt/stateful_partition
tmpfs           2.0M  128K  1.9M   7% /var/lib/cloud
/dev/sdb1        49G  9.9G   38G  22% /mnt/disks/Linux              ◄- DEEP LEARNING
``````

On Unix-like operating systems, the set command is a built-in function of the Bourne shell ( sh ), C shell ( csh ), and Korn shell ( ksh ), which is used to define and determine the values of the system environment.

``````\$ set

ACTIONS_ID_TOKEN_REQUEST_TOKEN=***
AGENT_TOOLSDIRECTORY=/opt/hostedtoolcache
BASH=/bin/bash
BASH_ALIASES=()
BASH_ARGC=()
BASH_ARGV=()
BASH_CMDS=()
BASH_LINENO=([0]="0")
BASH_SOURCE=([0]="/home/runner/_work/_temp/b00557e9-dc1d-40fb-a211-db6869b65693.sh")
BASH_VERSINFO=([0]="5" [1]="0" [2]="3" [3]="1" [4]="release" [5]="x86_64-pc-linux-gnu")
BASH_VERSION='5.0.3(1)-release'
CI=true
DIRSTACK=()
EUID=0
GITHUB_ACCESS_TOKEN=***
GITHUB_ACTION=__run
GITHUB_ACTIONS=true
GITHUB_ACTION_REF=
GITHUB_ACTION_REPOSITORY=
GITHUB_ACTOR=eq19
GITHUB_ACTOR_ID=8466209
GITHUB_API_URL=https://api.github.com
GITHUB_BASE_REF=
GITHUB_ENV=/home/runner/_work/_temp/_runner_file_commands/set_env_acae127c-173c-43fd-abea-f6d3fe882641
GITHUB_EVENT_NAME=push
GITHUB_EVENT_PATH=/home/runner/_work/_temp/_github_workflow/event.json
GITHUB_GRAPHQL_URL=https://api.github.com/graphql
GITHUB_JOB=github-pages
GITHUB_OUTPUT=/home/runner/_work/_temp/_runner_file_commands/set_output_acae127c-173c-43fd-abea-f6d3fe882641
GITHUB_REF_NAME=eQ19
GITHUB_REF_PROTECTED=false
GITHUB_REF_TYPE=branch
GITHUB_REPOSITORY=FeedMapping/Partition
GITHUB_REPOSITORY_ID=550855238
GITHUB_REPOSITORY_OWNER=FeedMapping
GITHUB_REPOSITORY_OWNER_ID=11927583
GITHUB_RETENTION_DAYS=90
GITHUB_RUN_ATTEMPT=1
GITHUB_RUN_ID=4975344786
GITHUB_RUN_NUMBER=88
GITHUB_SERVER_URL=https://github.com
GITHUB_STATE=/home/runner/_work/_temp/_runner_file_commands/save_state_acae127c-173c-43fd-abea-f6d3fe882641
GITHUB_STEP_SUMMARY=/home/runner/_work/_temp/_runner_file_commands/step_summary_acae127c-173c-43fd-abea-f6d3fe882641
GITHUB_TRIGGERING_ACTOR=eq19
GITHUB_WORKFLOW='Build and deploy Jekyll site'
GITHUB_WORKSPACE=/home/runner/_work/Partition/Partition
GROUPS=()
HOME=/root
HOSTNAME=ef75abdc2b19
HOSTTYPE=x86_64
IFS=\$' \t\n'
MACHTYPE=x86_64-pc-linux-gnu
OPTERR=1
OPTIND=1
OSTYPE=linux-gnu
PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
PIPESTATUS=([0]="0")
PPID=17188
PS4='+ '
***
RUNNER_ALLOW_RUNASROOT=true
RUNNER_ARCH=X64
RUNNER_LABELS=
RUNNER_ORGANIZATION_URL=https://github.com/FeedMapping
RUNNER_OS=Linux
RUNNER_REPLACE_EXISTING=true
RUNNER_REPOSITORY_URL=
RUNNER_TEMP=/home/runner/_work/_temp
RUNNER_TOKEN=ACAS6IJKEQK3RSYCNEQ3Z53EL2JM6
RUNNER_TOOL_CACHE=/opt/hostedtoolcache
RUNNER_TRACKING_ID=github_b2590dca-5a63-4f9a-a8e2-68924e311fdc
RUNNER_WORKSPACE=/home/runner/_work/Partition
RUNNER_WORK_DIRECTORY=_work
SHELL=/bin/bash
SHLVL=1
SUPERVISOR_ENABLED=1
SUPERVISOR_GROUP_NAME=runner
SUPERVISOR_PROCESS_NAME=runner
TERM=dumb
UID=0
_=-V
``````

``````docker info
docker --version

docker logout

git clone https://github.com/eq19/setup
cd setup/docker
docker build -t setup .

docker images
docker tag setup:latest eq19/setup:latest

docker push eq19/setup:latest
``````

For now, there are only Debian Buster (tagged with latest and vX.Y.Z) and Ubuntu Focal (tagged with ubuntu-20.04 and vX.Y.Z-ubuntu-20.04) images, but I may add more variants in the future. Feel free to create an issue if you want another base image.

When comparing Chromium OS vs Debian GNU/Linux, the Slant community recommends Debian GNU/Linux for most people. In the question“What are the best Linux distributions for desktops?” Debian GNU/Linux is ranked 3rd while Chromium OS is ranked 88th. The most important reason people chose Debian GNU/Linux is:

Debian offers stable and testing CD images specifically built for GNOME (the default), KDE Plasma Workspaces, Xfce and LXDE. Less common window managers such as Enlightenment, Openbox, Fluxbox, GNUstep, IceWM, Window Maker and others can also be installed (Slant).

For most frameworks, Debian 10 is the default OS. Ubuntu 20.04 images are available for some frameworks. They are denoted by the -ubuntu-2004 suffixes in the image family name (see Listing all available versions). Debian 9 images have been deprecated.

You can pull a container image and show the "history" for the container. This shows you how it is built and what the original starting image. This does not mean that you access the original image. You can add to and remove parts of the image. You can also export an image to a tar archive file, modify and then reimport

``````{% raw %}
\$ docker history  gcr.io/deeplearning-platform-release/tf-cpu:m96 --format  " {{.CreatedBy}}" --no-trunc

RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c BAZEL_INSTALLER_URL="https://github.com/bazelbuild/bazel/releases/download/0.19.0/bazel-0.19.0-installer-linux-x86_64.sh" &&     BAZEL_INSTALLER_FILE="bazel_installer.sh" &&     wget -q "\${BAZEL_INSTALLER_URL}" -O "\${BAZEL_INSTALLER_FILE}" &&     chmod +x "\${BAZEL_INSTALLER_FILE}" &&     "./\${BAZEL_INSTALLER_FILE}" &&     rm -rf "./\${BAZEL_INSTALLER_FILE}" # buildkit
RUN |2 VERSION=1-15 CONTAINER_NAME=tf-cpu/1-15 /bin/sh -c export CONDA_REPOSITORY="/tmp/conda" &&     chmod +x /opt/google/conda/install_to_env.sh &&     ENV_DOCKER=1 /opt/google/conda/install_to_env.sh base dlenv-tf-\${VERSION}-cpu-meta # buildkit
ENV KMP_SETTINGS=1
ENV KMP_AFFINITY=granularity=fine,verbose,compact,1,0
ENV KMP_BLOCKTIME=0
ENV CONTAINER_NAME=tf-cpu/1-15
ARG CONTAINER_NAME
ARG VERSION
CMD ["/run_jupyter.sh"]
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x run_jupyter.sh # buildkit
COPY build/container/run_jupyter.sh /run_jupyter.sh # buildkit
ENTRYPOINT ["/entrypoint.sh"]
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x entrypoint.sh # buildkit
COPY build/container/entrypoint.sh /entrypoint.sh # buildkit
COPY build/package/packages/jupyter/jupyter_notebook_config.py /opt/jupyter/.jupyter/jupyter_notebook_config.py # buildkit
COPY build/package/packages/jupyter/ipython_kernel_config.py /etc/ipython/ipython_kernel_config.py # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chown -R "jupyter:jupyter" "/home/jupyter/." # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c adduser --uid 1000 --gid 1001 jupyter # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c addgroup --gid 1001 jupyter # buildkit
ENV LD_LIBRARY_PATH=/usr/local/cuda/lib64:/usr/local/cuda/lib:/usr/local/lib/x86_64-linux-gnu:/usr/local/nvidia/lib:/usr/local/nvidia/lib64:
VOLUME [/home/jupyter]
EXPOSE map[8080/tcp:{}]
ENV SHELL=/bin/bash
ENV PATH=/opt/conda/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c chmod +x /opt/google/conda/provision_conda.sh && /opt/google/conda/provision_conda.sh # buildkit
ENV DL_ANACONDA_HOME=/opt/conda
ENV ANACONDA_PYTHON_VERSION=3.7
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c cd / &&     gsutil cp -r gs://dl-platform-binaries-builds/openmpi-4.0.2/v20191105/openmpi.tar.gz  . &&     tar xf openmpi.tar.gz &&     rm -f openmpi.tar.gz # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt update -y &&     apt install -y libnuma-dev # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c if dpkg -s libnccl2; then         echo "deb https://packages.cloud.google.com/apt google-fast-socket main" | tee /etc/apt/sources.list.d/google-fast-socket.list &&         curl -s -L https://packages.cloud.google.com/apt/doc/apt-key.gpg | apt-key add - &&         apt-get --allow-releaseinfo-change update && apt install -y google-fast-socket;     fi # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt-get --allow-releaseinfo-change -o Acquire::Check-Valid-Until=false update -y &&     apt-get install --no-install-recommends -y -q        \$(grep -vE "^\s*#" aptget-requirements.txt | tr "\n" " ") &&     rm -rf /var/lib/apt/lists/* &&     rm -rf aptget-requirements.txt # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c if [ "\${BASE_IMAGE}" =~ "^nvidia. *" ]; then       apt update -y || true && apt install -y wget && apt install -yq software-properties-common &&       wget https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/cuda-ubuntu2004.pin &&       mv cuda-ubuntu2004.pin /etc/apt/preferences.d/cuda-repository-pin-600 &&       apt-key adv --fetch-keys https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/3bf863cc.pub &&       add-apt-repository "deb https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2004/x86_64/ /" &&       apt-get --allow-releaseinfo-change update;     fi # buildkit
COPY build/vm/packer/base/aptget-requirements.txt /aptget-requirements.txt # buildkit
RUN |1 DEBIAN_FRONTEND=noninteractive /bin/sh -c apt update --allow-releaseinfo-change -y &&     apt upgrade -y # buildkit
ARG DEBIAN_FRONTEND=noninteractive
ENV LANG=C.UTF-8
ENV LC_ALL=C.UTF-8
{% endraw %}
``````

``````---+-----+-----
1 | {1} | {9}
---+-----+-----
2 | 10  |{32}
---+-----+-----
3 | 33  | 63
---+-----+-----
4 |{64} | 101
---+-----+-----
5 |{102}| 120
---+-----+-----
6 | 121 |{189}
---+-----+-----
7 | 190 |{200}
---+-----+-----
``````
``````\$ cat /etc/os-release

NAME="Alpine Linux"
ID=alpine
VERSION_ID=3.18.0
PRETTY_NAME="Alpine Linux v3.18"
HOME_URL="https://alpinelinux.org/"
BUG_REPORT_URL="https://gitlab.alpinelinux.org/alpine/aports/-/issues"
``````

Mapping the quantum way within a huge of primes objects (5 to 19) by lexering (11) the ungrammared feed (7) and parsering (13) across syntax (17).

There might be cases where you want to install and use Ruby with Anaconda or Miniconda. By doing this, Ruby becomes usable. however, it will not compile gems that use native extensions.

Since it is nearly impossible to use Ruby without utilizing native extensions, this method is not very practical.Instead, you can simply install Ruby from conda-forge and install the compilers package at the same time. This way, you can easily use Ruby within Conda environments like Anaconda or Miniconda (Using Ruby with Conda).

``````conda install -c conda-forge ruby
conda install -c conda-forge compilers

conda install -c "conda-forge/label/broken" ruby
conda install -c "conda-forge/label/cf201901" ruby
conda install -c "conda-forge/label/cf202003" ruby
conda install -c "conda-forge/label/gcc7" ruby
``````

In gRPC, a client application can directly call a method on a server application on a different machine as if it were a local object, making it easier for you to create distributed applications and services.

``````\$ find / -type f -name "Gemfile"

/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/Gemfile
/mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/pubsub/Gemfile

\$ cat /mnt/disks/Linux/opt/conda/pkgs/grpc-cpp-1.48.1-hc2bec63_1/info/test/examples/ruby/pubsub/Gemfile

source 'https://rubygems.org/'

gem 'grpc', '~> 1.0'
gem 'googleauth', '>= 0.5.1', '< 0.7'
``````