Are you over 18 and want to see adult content?
More Annotations
A complete backup of https://vulkanplatinums-onlines.com
Are you over 18 and want to see adult content?
A complete backup of https://vestre.com
Are you over 18 and want to see adult content?
A complete backup of https://lovescout247.de
Are you over 18 and want to see adult content?
A complete backup of https://gothamgreens.com
Are you over 18 and want to see adult content?
A complete backup of https://hottopic.com.mx
Are you over 18 and want to see adult content?
A complete backup of https://sticky.io
Are you over 18 and want to see adult content?
A complete backup of https://paydaynow.net
Are you over 18 and want to see adult content?
A complete backup of https://juniperhome.com
Are you over 18 and want to see adult content?
A complete backup of https://fineco-bank.com
Are you over 18 and want to see adult content?
A complete backup of https://bbfun.de
Are you over 18 and want to see adult content?
A complete backup of https://bestpics.ru
Are you over 18 and want to see adult content?
A complete backup of https://vrlc.com.br
Are you over 18 and want to see adult content?
Favourite Annotations
A complete backup of centralasiainstitute.org
Are you over 18 and want to see adult content?
A complete backup of devolverdigital.com
Are you over 18 and want to see adult content?
A complete backup of fleetlanding.net
Are you over 18 and want to see adult content?
A complete backup of machinadynamica.com
Are you over 18 and want to see adult content?
A complete backup of cookbookfair.com
Are you over 18 and want to see adult content?
Text
Check it out.
BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). BUILD A 6502 COMPUTERBEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. LET’S BUILD A VIDEO CARD! VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). BUILD A 6502 COMPUTERBEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. LET’S BUILD A VIDEO CARD! VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
BEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. LET’S BUILD A VIDEO CARD! You’ll also want to have some way to program the EEPROM. In the video I used a TL866II Plus programmer. But you can also build your own.. The oscilloscope I used in the video is the Rigol DS1054Z.. The signal generator I used in the video is the Rigol DG1022G.. Additionally, for connecting to the 6502 project, I used 3 74HCT245 buffers, a 74HCT74 flip-flop, and a 74HCT08 quad AND gate.BEN EATER
Funded by the community. Funding for my videos comes primarily through community support through Patreon. You can pledge any amount you want (as little as $1) per video and will only be charged as I release new videos. I don't typically release more than one or two videos per month, but you may set up a monthly limit if you're worried about meBEN EATER
The computer’s clock is used to synchronize all operations. The clock we’re building is based on the popular 555 timer IC. The videos go into some detail on the operation of the 555 and use it in three different ways. Our clock is adjustable-speed (from less than 1Hz to a few hundred Hz). The clock can also be put into a manual modewhere
BEN EATER
I create tutorial-style videos about electronics, computer architecture, networking, and various other technical subjects.BEN EATER
There would need to be a means of generating this pulse at the required time as well as switching the I/O line from output to input and back. In short, it's possible to use them here but the system would be much larger to incorporate the chips required to serialise and deserialise the data. It's just easier to go with the par/pareeproms.
OODA LOOP SIMULATOR
What does the simulation show? It’s an extremely simple model. Each plane has the singular goal of flying towards the other plane. That’s it. The only difference between the planes is the OODA interval, otherwise everything else—speed, turn rate, etc—is the same. Each interval, the plane will determine the bearing direct tothe other
BEN EATER
Ben, Thank you for taking the time to do all this. I look forward to all your posts on youtube! Even though I already have experience with building my own 8085 based computer I have been enjoying following along and building with you. It's gotten me into using Arduinos and reawaken electronics as a hobbie! W65C02S 8 BIT MICROPROCESSOR 5 1 INTRODUCTION The W65C02S is a low power cost sensitive 8-bit microprocessor. The W65C02S is a fully static core and the PHI2 clock can be stopped when it is in the high (logic 1) or low (logic 0)state.
BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). BUILD A 6502 COMPUTERBEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9.BEN EATER
The computer’s clock is used to synchronize all operations. The clock we’re building is based on the popular 555 timer IC. The videos go into some detail on the operation of the 555 and use it in three different ways. Our clock is adjustable-speed (from less than 1Hz to a few hundred Hz). The clock can also be put into a manual modewhere
VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). BUILD A 6502 COMPUTERBEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9.BEN EATER
The computer’s clock is used to synchronize all operations. The clock we’re building is based on the popular 555 timer IC. The videos go into some detail on the operation of the 555 and use it in three different ways. Our clock is adjustable-speed (from less than 1Hz to a few hundred Hz). The clock can also be put into a manual modewhere
VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
BEN EATER
6502 computer project kits. If you’re interested in building your own 6502 computer, I provide a kit that includes all of the components used in my 6502 video series.. Please note: In addition to the base kit, you will need: A 5-volt power supply; An EEPROM programmer; Also, if you want to follow all of the experiments and debugging in the videos, I recommend the clock module kit and anBEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. LET’S BUILD A VIDEO CARD! You’ll also want to have some way to program the EEPROM. In the video I used a TL866II Plus programmer. But you can also build your own.. The oscilloscope I used in the video is the Rigol DS1054Z.. The signal generator I used in the video is the Rigol DG1022G.. Additionally, for connecting to the 6502 project, I used 3 74HCT245 buffers, a 74HCT74 flip-flop, and a 74HCT08 quad AND gate.BEN EATER
Complete parts list. Here’s a complete parts list of everything I used to build the breadboard computer. The total cost works out to roughly $250–$300 USD depending onBEN EATER
I create tutorial-style videos about electronics, computer architecture, networking, and various other technical subjects. VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES Explaining how quaternions, a four-dimensional number system, describe3d rotation.
BEN EATER
Registers. Most CPUs have a number of registers which store small amounts of data that the CPU is processing. In our simple breadboard CPU, we’ll build three 8-bit registers: A, B, and IR. The A and B registers are general-purpose registers. IR (the instruction register) works similarly, but we’ll only use it for storing the currentBEN EATER
When touching something on the breadboard (some connection), it would work most of the time. After replacing the breadboard and the 74LS161 and some other stuff I figured out that it had to do with a missing connection from CLR (on the 74LS161) and Vcc. Ben does not have a connection here and it seems to work OK. W65C02S 8 BIT MICROPROCESSOR 5 1 INTRODUCTION The W65C02S is a low power cost sensitive 8-bit microprocessor. The W65C02S is a fully static core and the PHI2 clock can be stopped when it is in the high (logic 1) or low (logic 0)state.
BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ).BEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. BUILD A 6502 COMPUTER VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ).BEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. BUILD A 6502 COMPUTER VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
BEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBEN EATER
Learn how the Internet works. This series of videos walks through how the internet works. I start with the simple question of how to send digital information over a wire (for a deeper look, see the first video in this series ). From there, the videos walk though a layer at a time, explaining what problem each layer solves and how itcontributes
BUILD A 6502 COMPUTER Build a 6502 computer. Learn how computers work by building and programming a computer with the classic 6502 microprocessor. This was the first truly low-cost microprocessor that started the personal-computing revolution. Versions of 6502 found their way into the Atari 2600, Apple II, Nintendo Entertainment System, Commodore 64,Atari Lynx, BBC
LET’S BUILD A VIDEO CARD! You’ll also want to have some way to program the EEPROM. In the video I used a TL866II Plus programmer. But you can also build your own.. The oscilloscope I used in the video is the Rigol DS1054Z.. The signal generator I used in the video is the Rigol DG1022G.. Additionally, for connecting to the 6502 project, I used 3 74HCT245 buffers, a 74HCT74 flip-flop, and a 74HCT08 quad AND gate.BEN EATER
The computer’s clock is used to synchronize all operations. The clock we’re building is based on the popular 555 timer IC. The videos go into some detail on the operation of the 555 and use it in three different ways. Our clock is adjustable-speed (from less than 1Hz to a few hundred Hz). The clock can also be put into a manual modewhere
BEN EATER
Funded by the community. Funding for my videos comes primarily through community support through Patreon. You can pledge any amount you want (as little as $1) per video and will only be charged as I release new videos. I don't typically release more than one or two videos per month, but you may set up a monthly limit if you're worried about meBEN EATER
I create tutorial-style videos about electronics, computer architecture, networking, and various other technical subjects.OODA LOOP SIMULATOR
What does the simulation show? It’s an extremely simple model. Each plane has the singular goal of flying towards the other plane. That’s it. The only difference between the planes is the OODA interval, otherwise everything else—speed, turn rate, etc—is the same. Each interval, the plane will determine the bearing direct tothe other
BEN EATER
When touching something on the breadboard (some connection), it would work most of the time. After replacing the breadboard and the 74LS161 and some other stuff I figured out that it had to do with a missing connection from CLR (on the 74LS161) and Vcc. Ben does not have a connection here and it seems to work OK. W65C02S 8 BIT MICROPROCESSOR 5 1 INTRODUCTION The W65C02S is a low power cost sensitive 8-bit microprocessor. The W65C02S is a fully static core and the PHI2 clock can be stopped when it is in the high (logic 1) or low (logic 0)state.
BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ).BEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ).BEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9.BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBEN EATER
Learn how the Internet works. This series of videos walks through how the internet works. I start with the simple question of how to send digital information over a wire (for a deeper look, see the first video in this series ). From there, the videos walk though a layer at a time, explaining what problem each layer solves and how itcontributes
VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
LET’S BUILD A VIDEO CARD! You’ll also want to have some way to program the EEPROM. In the video I used a TL866II Plus programmer. But you can also build your own.. The oscilloscope I used in the video is the Rigol DS1054Z.. The signal generator I used in the video is the Rigol DG1022G.. Additionally, for connecting to the 6502 project, I used 3 74HCT245 buffers, a 74HCT74 flip-flop, and a 74HCT08 quad AND gate.BEN EATER
Funded by the community. Funding for my videos comes primarily through community support through Patreon. You can pledge any amount you want (as little as $1) per video and will only be charged as I release new videos. I don't typically release more than one or two videos per month, but you may set up a monthly limit if you're worried about meBEN EATER
Complete parts list. Here’s a complete parts list of everything I used to build the breadboard computer. The total cost works out to roughly $250–$300 USD depending onBEN EATER
I create tutorial-style videos about electronics, computer architecture, networking, and various other technical subjects.BEN EATER
Clock module. The computer’s clock is used to synchronize all operations. The clock we’re building is based on the popular 555 timer IC. The videos go into some detail on the operation of the 555 and use it in three different ways.BEN EATER
When touching something on the breadboard (some connection), it would work most of the time. After replacing the breadboard and the 74LS161 and some other stuff I figured out that it had to do with a missing connection from CLR (on the 74LS161) and Vcc. Ben does not have a connection here and it seems to work OK. BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ).BEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9. BEN EATERBUILD A 6502 COMPUTERVERSION (8-BIT)VISUALIZING QUATERNIONSBEN EATER Learn how the Internet works. This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out.
BEN EATER
Programming Fibonacci on a breadboard computer. If you want to dive into the details of how the computer works and understand it from first principles, but are a little unsure of how transistors and logic gates work (or just want a refresher), here are a few videos to serve as an introduction: 15:50. How semiconductors work.BOIDS ALGORITHM
1. Coherence. Each boid flies towards the the other boids. But they don't just immediately fly directly at each other. They gradually steer towards each other at a rate that you can adjust with the "coherence" slider. 2. Separation. Each boid also tries to avoid running into the other boids. If it gets too close to another boid itwill steer
BEN EATER
Tools required. In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ).BEN EATER
The video above covers this in a little more detail, but the biggest difference is the quality of the internal contacts in the breadboard. Below, I've removed the contacts from three different breadboards. The one on the left was ~$2; the one in the middle was around $5; and the one on the right is closer to ~\$9.BEN EATER
In addition to what comes with the kits, you’ll need a few common tools. For kit 1, to connect the power supply, you need: A small (#1) phillips screwdriver. For the remainder of the kits (2, 3, and 4) you'll also need: Wire cutters, preferably small ones. (e.g., these from Hakko or Lindstrom ). Small needle-nose pliers or good tweezers;I
BEN EATER
About me. I'm currently creating educational videos for my YouTube channel and exploring other ways to maximize human potential through education online.. For the previous 7 years, I managed platform engineering at Khan Academy after joining the team in 2011 as lead exercise developer and building over a hundred interactive math exercise modules. As the team grew, I helped build tools to allowBEN EATER
Learn how the Internet works. This series of videos walks through how the internet works. I start with the simple question of how to send digital information over a wire (for a deeper look, see the first video in this series ). From there, the videos walk though a layer at a time, explaining what problem each layer solves and how itcontributes
VISUALIZING QUATERNIONS, AN EXPLORABLE VIDEO SERIES A story of four dimensions. Describes a way to visualize a hypersphere using stereographic projection and understand quaternion multiplication in terms of certain actions on this hypersphere. Quaternions and 3d rotation, explained interactively. A 6-minute follow-on giving more of the context on how and why quaternions areused in computer
LET’S BUILD A VIDEO CARD! You’ll also want to have some way to program the EEPROM. In the video I used a TL866II Plus programmer. But you can also build your own.. The oscilloscope I used in the video is the Rigol DS1054Z.. The signal generator I used in the video is the Rigol DG1022G.. Additionally, for connecting to the 6502 project, I used 3 74HCT245 buffers, a 74HCT74 flip-flop, and a 74HCT08 quad AND gate.BEN EATER
Funded by the community. Funding for my videos comes primarily through community support through Patreon. You can pledge any amount you want (as little as $1) per video and will only be charged as I release new videos. I don't typically release more than one or two videos per month, but you may set up a monthly limit if you're worried about meBEN EATER
Complete parts list. Here’s a complete parts list of everything I used to build the breadboard computer. The total cost works out to roughly $250–$300 USD depending onBEN EATER
I create tutorial-style videos about electronics, computer architecture, networking, and various other technical subjects.BEN EATER
Clock module. The computer’s clock is used to synchronize all operations. The clock we’re building is based on the popular 555 timer IC. The videos go into some detail on the operation of the 555 and use it in three different ways.BEN EATER
When touching something on the breadboard (some connection), it would work most of the time. After replacing the breadboard and the 74LS161 and some other stuff I figured out that it had to do with a missing connection from CLR (on the 74LS161) and Vcc. Ben does not have a connection here and it seems to work OK. You need to enable JavaScript to view this site. Skip to main contentBen Eater logo typeProjects Shop About
FAQ Support
VIDEO TUTORIALS
BUILD AN 8-BIT CPU FROM SCRATCH This tutorial walks through building a fully programmable 8-bit computer from simple logic gates on breadboards. Included are parts lists, sources, and schematics to make it easier to follow along or even build your own!Check it out
BUILD A 6502 COMPUTER Learn how computers work by building and programming a computer with the classic 6502 8-bit microprocessor.Check it out
LEARN HOW THE INTERNET WORKS This series of videos walks through how the internet works a layer at a time, explaining what problem each layer solves and how it contributes to the final result: Reliable end-to-end communication between two computers anywhere in the world.Check it out
LET’S BUILD A VIDEO CARD! In these videos, I talk about how VGA signals work and build a circuit that provides the correct timing of sync signals so that a monitor recognizes the signal and displays an image stored on an EEPROM.Check it out
LEARN ABOUT ERROR DETECTION This video mini-series will provide a deep dive into how data transmission, parity, checksums, and CRC error detection work.Check it out
EXPLORABLE VIDEOS AND SIMULATIONS VISUALIZING QUATERNIONS An experiment with a new type of educational media. Check out this first series of “explorable videos” I developed in partnership with Grant from the YouTube channel 3blue1brown . In this series, Grant explains quaternions, a four-dimensional number system that can be used to describe 3d rotation.Check it out
BIRD FLOCKING SIMULATION The boids algorithm is a neat example of how complex animal behavior emerges from following just a few simple rules.Check it out
OODA LOOP SIMULATION What’s an observe-orient-decide-act (OODA) loop? With the help of this simulation, Destin from Smarter Every Day explains what it is and how it relates to the news media.Check it out
Details
Copyright © 2024 ArchiveBay.com. All rights reserved. Terms of Use | Privacy Policy | DMCA | 2021 | Feedback | Advertising | RSS 2.0