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RISCY BUSINESS»Episode Guide
1.13 Exercises 1-8
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Elsevier
Textbooks
[1]4:17
RISCY BUSINESS Forums
COAD 1.13 Exercises
[2]6:04
David Patterson & John Hennessy (Morgan Kaufmann)
Computer Organization and Design RISC-V Edition
[3]9:56[4]13:54[8]27:13
[10]32:54[14]1:16:42[15]1:20:54
[18]1:25:33[19]1:32:21[20]1:55:29
[21]1:58:09[22]2:08:24[23]2:21:57
[24]2:35:19[25]2:51:53[26]3:03:55
[29]3:48:53
Wikipedia
D-Wave Systems
[5]18:25
YouTube
UNBOXING A QUANTUM COMPUTER! - Holy $HIT Ep 19
[6]20:01
Intel Nervana
[7]24:06
Wikipedia
Suspension bridge
[9]30:33
University of Louisiana at Lafayette
Reserve Desk
[11]54:14
Luther College
Reserve Desk
[12]54:14
Wikipedia
Aircraft catapult
[13]1:01:06
Twitter
Got text input working for pcalc, still just using xcb for the backend, executable is 127K right now statically linked to everything
[16]1:22:09[30]3:55:15
RISCY BUSINESS Blog
July Overview
[17]1:22:09
Wikipedia
Power factor
[27]3:06:22
Evil Mad Scientist
Basics: Power dissipation and electronic components
[28]3:14:38
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0:08Recap and set the stage for the day
0:08Recap and set the stage for the day
0:08Recap and set the stage for the day
4:17Attempt to access the Instructor Materials1
4:17Attempt to access the Instructor Materials1
4:17Attempt to access the Instructor Materials1
6:04Create a thread for peer-reviewing the exercises in the riscy forums2
6:04Create a thread for peer-reviewing the exercises in the riscy forums2
6:04Create a thread for peer-reviewing the exercises in the riscy forums2
9:56Chapter 1.13 - Exercises3
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9:56Chapter 1.13 - Exercises3
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9:56Chapter 1.13 - Exercises3
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13:54Chapter 1.13, Exercise 1.1 - Aside from the smart cell phones used by a billion people, list and describe four other types of computers4
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13:54Chapter 1.13, Exercise 1.1 - Aside from the smart cell phones used by a billion people, list and describe four other types of computers4
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13:54Chapter 1.13, Exercise 1.1 - Aside from the smart cell phones used by a billion people, list and describe four other types of computers4
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18:25A few words on D-Wave Systems5
18:25A few words on D-Wave Systems5
18:25A few words on D-Wave Systems5
20:01Recommend 'UNBOXING A QUANTUM COMPUTER! - Holy $HIT Ep 19'6
20:01Recommend 'UNBOXING A QUANTUM COMPUTER! - Holy $HIT Ep 19'6
20:01Recommend 'UNBOXING A QUANTUM COMPUTER! - Holy $HIT Ep 19'6
22:45Tying this is in to RISC-V
22:45Tying this is in to RISC-V
22:45Tying this is in to RISC-V
24:06Shout-out to Intel Nervana - Inside Artificial Intelligence7
24:06Shout-out to Intel Nervana - Inside Artificial Intelligence7
24:06Shout-out to Intel Nervana - Inside Artificial Intelligence7
27:13Chapter 1.13, Exercise 1.2 - Match the eight great ideas from computer architecture to the following ideas from other fields8
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27:13Chapter 1.13, Exercise 1.2 - Match the eight great ideas from computer architecture to the following ideas from other fields8
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27:13Chapter 1.13, Exercise 1.2 - Match the eight great ideas from computer architecture to the following ideas from other fields8
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30:33Read about suspension bridges9
30:33Read about suspension bridges9
30:33Read about suspension bridges9
32:54Chapter 1.13, Exercise 1.2 continued10
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32:54Chapter 1.13, Exercise 1.2 continued10
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32:54Chapter 1.13, Exercise 1.2 continued10
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43:59Chapter 1.13, Exercise 1.2 - Our mapping of the eight great ideas in computer architecture to the ideas from other fields
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43:59Chapter 1.13, Exercise 1.2 - Our mapping of the eight great ideas in computer architecture to the ideas from other fields
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43:59Chapter 1.13, Exercise 1.2 - Our mapping of the eight great ideas in computer architecture to the ideas from other fields
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54:14Read about library reserve desks11,12
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54:14Read about library reserve desks11,12
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54:14Read about library reserve desks11,12
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58:41Chapter 1.13, Exercise 1.2 - Our mapping continued
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58:41Chapter 1.13, Exercise 1.2 - Our mapping continued
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58:41Chapter 1.13, Exercise 1.2 - Our mapping continued
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1:01:06Read about electromagnetic aircraft catapults13
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1:01:06Read about electromagnetic aircraft catapults13
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1:01:06Read about electromagnetic aircraft catapults13
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1:05:42Chapter 1.13, Exercise 1.2 - Our mapping continued
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1:05:42Chapter 1.13, Exercise 1.2 - Our mapping continued
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1:05:42Chapter 1.13, Exercise 1.2 - Our mapping continued
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1:16:42Chapter 1.13, Exercise 1.3 - Describe the steps that transform a program written in a high-level language such as C into a representation that is directly executed by a computer processor14
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1:16:42Chapter 1.13, Exercise 1.3 - Describe the steps that transform a program written in a high-level language such as C into a representation that is directly executed by a computer processor14
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1:16:42Chapter 1.13, Exercise 1.3 - Describe the steps that transform a program written in a high-level language such as C into a representation that is directly executed by a computer processor14
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1:20:54Chapter 1.13, Exercise 1.4 - Memory and speed considerations of rendering a bitmap15
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1:20:54Chapter 1.13, Exercise 1.4 - Memory and speed considerations of rendering a bitmap15
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1:20:54Chapter 1.13, Exercise 1.4 - Memory and speed considerations of rendering a bitmap15
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1:22:09Plug pcalc16,17
1:22:09Plug pcalc16,17
1:22:09Plug pcalc16,17
1:25:33Chapter 1.13, Exercise 1.4 continued18
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1:25:33Chapter 1.13, Exercise 1.4 continued18
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1:25:33Chapter 1.13, Exercise 1.4 continued18
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1:32:21Chapter 1.13, Exercise 1.5 - Calculating CPU performance19
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1:32:21Chapter 1.13, Exercise 1.5 - Calculating CPU performance19
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1:32:21Chapter 1.13, Exercise 1.5 - Calculating CPU performance19
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1:38:24Chapter 1.13, Exercise 1.5a - Our CPU performance calculations
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1:38:24Chapter 1.13, Exercise 1.5a - Our CPU performance calculations
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1:38:24Chapter 1.13, Exercise 1.5a - Our CPU performance calculations
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1:55:29Chapter 1.13, Exercise 1.5a continued20
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1:55:29Chapter 1.13, Exercise 1.5a continued20
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1:55:29Chapter 1.13, Exercise 1.5a continued20
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1:58:09Chapter 1.13, Exercise 1.5b - CPU cycles and instructions21
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1:58:09Chapter 1.13, Exercise 1.5b - CPU cycles and instructions21
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1:58:09Chapter 1.13, Exercise 1.5b - CPU cycles and instructions21
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1:59:58Chapter 1.13, Exercise 1.5b - Calculating CPU cycles and instructions
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1:59:58Chapter 1.13, Exercise 1.5b - Calculating CPU cycles and instructions
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1:59:58Chapter 1.13, Exercise 1.5b - Calculating CPU cycles and instructions
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2:08:24Chapter 1.13, Exercise 1.5c - Reducing execution time22
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2:08:24Chapter 1.13, Exercise 1.5c - Reducing execution time22
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2:08:24Chapter 1.13, Exercise 1.5c - Reducing execution time22
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2:10:06Chapter 1.13, Exercise 1.5c - Calculating the desired clock rate
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2:10:06Chapter 1.13, Exercise 1.5c - Calculating the desired clock rate
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2:10:06Chapter 1.13, Exercise 1.5c - Calculating the desired clock rate
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2:21:57Chapter 1.13, Exercise 1.6 - Comparing ISA implementations23
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2:21:57Chapter 1.13, Exercise 1.6 - Comparing ISA implementations23
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2:21:57Chapter 1.13, Exercise 1.6 - Comparing ISA implementations23
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2:35:19Chapter 1.13, Exercise 1.7 - Comparing compiler performance24
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2:35:19Chapter 1.13, Exercise 1.7 - Comparing compiler performance24
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2:35:19Chapter 1.13, Exercise 1.7 - Comparing compiler performance24
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2:36:57Chapter 1.13, Exercise 1.7a - Calculating the average CPI for each program
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2:36:57Chapter 1.13, Exercise 1.7a - Calculating the average CPI for each program
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2:36:57Chapter 1.13, Exercise 1.7a - Calculating the average CPI for each program
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2:41:54Chapter 1.13, Exercise 1.7b - Calculating the clock rates of two processors running the two compilers' code
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2:41:54Chapter 1.13, Exercise 1.7b - Calculating the clock rates of two processors running the two compilers' code
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2:41:54Chapter 1.13, Exercise 1.7b - Calculating the clock rates of two processors running the two compilers' code
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2:46:02Chapter 1.13, Exercise 1.7c - Calculating compiler speedup
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2:46:02Chapter 1.13, Exercise 1.7c - Calculating compiler speedup
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2:46:02Chapter 1.13, Exercise 1.7c - Calculating compiler speedup
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2:51:53Chapter 1.13, Exercise 1.8 - Energy consumption25
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2:51:53Chapter 1.13, Exercise 1.8 - Energy consumption25
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2:51:53Chapter 1.13, Exercise 1.8 - Energy consumption25
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2:52:40Chapter 1.13, Exercise 1.8.1 - Calculating average capacitive load
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2:52:40Chapter 1.13, Exercise 1.8.1 - Calculating average capacitive load
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2:52:40Chapter 1.13, Exercise 1.8.1 - Calculating average capacitive load
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2:58:01Chapter 1.13, Exercise 1.8.2 - Calculating percentage of total dissipated power
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2:58:01Chapter 1.13, Exercise 1.8.2 - Calculating percentage of total dissipated power
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2:58:01Chapter 1.13, Exercise 1.8.2 - Calculating percentage of total dissipated power
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3:03:55Review Chapter 1.7, The Power Wall - Elaboration26
3:03:55Review Chapter 1.7, The Power Wall - Elaboration26
3:03:55Review Chapter 1.7, The Power Wall - Elaboration26
3:06:22Research Power factor27
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3:06:22Research Power factor27
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3:06:22Research Power factor27
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3:14:38Research power dissipation28
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3:14:38Research power dissipation28
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3:14:38Research power dissipation28
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3:31:04Chapter 1.13, Exercise 1.8.2 continued
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3:31:04Chapter 1.13, Exercise 1.8.2 continued
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3:31:04Chapter 1.13, Exercise 1.8.2 continued
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3:36:27Chapter 1.13, Exercise 1.8.3 - Calculating voltage reduction required to maintain same leakage current for a 10% lower total dissipated power
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3:36:27Chapter 1.13, Exercise 1.8.3 - Calculating voltage reduction required to maintain same leakage current for a 10% lower total dissipated power
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3:36:27Chapter 1.13, Exercise 1.8.3 - Calculating voltage reduction required to maintain same leakage current for a 10% lower total dissipated power
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3:48:53Chapter 1.13, Exercise 1.9 - Parallelism29
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3:48:53Chapter 1.13, Exercise 1.9 - Parallelism29
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3:48:53Chapter 1.13, Exercise 1.9 - Parallelism29
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3:51:42Call it here
3:51:42Call it here
3:51:42Call it here
3:53:24Shout-out to Patreon supporters
3:53:24Shout-out to Patreon supporters
3:53:24Shout-out to Patreon supporters
3:55:15Plug pcalc30
3:55:15Plug pcalc30
3:55:15Plug pcalc30