Index of /Youtube/Ben Eater

	Name	Size
	Parent Directory	-
	20130901.KA 60 Minutes Sep 2013 rerun (10x speed).0gurk_vqGLI.mkv	10M
	20141029.ARP - Mapping between IP and Ethernet _ Networking tutorial (9 of 13).aamG4-tH_m8.mkv	14M
	20141029.Analyzing actual Ethernet encoding _ Networking tutorial (4 of 13).i8CmibhvZ0c.mkv	14M
	20141029.Clock synchronization and Manchester coding _ Networking tutorial (3 of 13).8BhjXqw9MqI.mkv	14M
	20141029.Frame formats _ Networking tutorial (6 of 13).1XrRT0CmzYw.mkv	11M
	20141029.Hop-by-hop routing _ Networking tutorial (11 of 13).VWJ8GmYnjTs.mkv	21M
	20141029.Intro to fiber optics and RF encoding _ Networking tutorial (2 of 13).lUo45NqPyq8.mkv	7.6M
	20141029.Looking at ARP and ping packets _ Networking tutorial (10 of 13).xNbdeyEI-nE.mkv	14M
	20141029.Lower layers of the OSI model _ Networking tutorial (7 of 13).MGAaTqFct_I.mkv	3.0M
	20141029.Sending digital information over a wire _ Networking tutorial (1 of 13).XaGXPObx2Gs.mkv	9.6M
	20141029.TCP - Transmission control protocol _ Networking tutorial (12 of 13).4IMc3CaMhyY.mkv	14M
	20141029.TCP connection walkthrough _ Networking tutorial (13 of 13).F27PLin3TV0.mkv	11M
	20141029.The Internet Protocol _ Networking tutorial (8 of 13).rPoalUa4m8E.mkv	12M
	20141029.The importance of framing _ Networking tutorial (5 of 13).xrVN9jKjIKQ.mkv	16M
	20150208.Comparing C to machine language.yOyaJXpAYZQ.mkv	17M
	20150208.Programming Fibonacci on a breadboard computer.a73ZXDJtU48.mkv	19M
	20150208.Programming my 8-bit breadboard computer.9PPrrSyubG0.mkv	32M
	20150208.Stepping through a program on the 8-bit breadboard computer.35zLnS3fXeA.mkv	24M
	20150210.Comparing the buffer and inverter circuits _ Digital electronics (10 of 10).Lv9Gc3Lghjk.mkv	16M
	20150210.Connecting to a mystery signal _ Digital electronics (4 of 10).KEOsmWRoT00.mkv	26M
	20150210.Experimenting with LEDs _ Digital electronics (1 of 10).poWJTSV4Yio.mkv	21M
	20150210.How a transistor amplifies current _ Digital electronics (6 of 10).uo2KgRN04XI.mkv	18M
	20150210.Inverting the signal with a transistor _ Digital electronics (9 of 10).hYN8C769k8A.mkv	20M
	20150210.Limiting current through an LED _ Digital electronics (2 of 10).CdqvY_vY1XA.mkv	30M
	20150210.Powering our LED circuit _ Digital electronics (3 of 10).LakgUi2Ajkw.mkv	46M
	20150210.The transistor as a current controlled switch _ Digital electronics (7 of 10).WD14ow-1q6k.mkv	10M
	20150210.Troubleshooting - Investigating why the LED is so dim (5 of 10).BpJAh0KfgEI.mkv	19M
	20150210.Using a transistor to solve our problem _ Digital electronics (8 of 10).ks_VShSgPns.mkv	23M
	20150301.Learn how computers add numbers and build a 4 bit adder circuit.wvJc9CZcvBc.mkv	23M
	20150318.How semiconductors work.33vbFFFn04k.mkv	21M
	20150319.How a transistor works.DXvAlwMAxiA.mkv	14M
	20150322.Making logic gates from transistors.sTu3LwpF6XI.mkv	26M
	20160217.SR latch.KM0DdEaY5sY.mkv	25M
	20160224.D latch.peCh_859q7Q.mkv	21M
	20160303.D flip-flop.YW-_GkUguMM.mkv	27M
	20160309.8-bit computer update.HyznrdDSSGM.mkv	18M
	20160317.Astable 555 timer - 8-bit computer clock - part 1.kRlSFm519Bo.mkv	59M
	20160317.Bistable 555 - 8-bit computer clock - part 3.WCwJNnx36Rk.mkv	24M
	20160317.Clock logic - 8-bit computer clock - part 4.SmQ5K7UQPMM.mkv	21M
	20160317.Monostable 555 timer - 8-bit computer clock - part 2.81BgFhm2vz8.mkv	27M
	20160502.Building an 8-bit register - 8-bit register - Part 4.CiMaWbz_6E8.mkv	25M
	20160502.Bus architecture and how register transfers work - 8 bit register - Part 1.QzWW-CBugZo.mkv	24M
	20160502.Designing and building a 1-bit register - 8 bit register - Part 3.-arYx_oVIj8.mkv	42M
	20160502.Testing our computer's registers - 8-bit register - Part 5.9WE3Obdjtv0.mkv	30M
	20160502.Tri-state logic - Connecting multiple outputs together - 8 bit register - Part 2.faAjse109Q8.mkv	17M
	20160710.ALU Design.mOVOS9AjgFs.mkv	30M
	20160710.Building the ALU.S-3fXU3FZQc.mkv	42M
	20160710.Twos complement - Negative numbers in binary.4qH4unVtJkE.mkv	24M
	20160717.Troubleshooting the ALU.U7Q8-2YZTUU.mkv	33M
	20160724.Testing the computer's ALU.4nCMDvnR2Fg.mkv	18M
	20160731.8-bit computer RAM intro.FnxPIZR1ybs.mkv	28M
	20160807.RAM module build - part 1.uYXwCBo40iA.mkv	36M
	20160821.RAM module build - part 2.KNve2LCcSRc.mkv	52M
	20160904.RAM module build - part 3.5rl1tEFXKt0.mkv	37M
	20160910.RAM module testing and troubleshooting.Vw3uDOUJRGw.mkv	48M
	20161229.JK flip-flop.F1OC5e7Tn_o.mkv	17M
	20170115.JK flip-flop racing.st3mUEub99E.mkv	32M
	20170119.Master-slave JK flip-flop.rXHSB5w7CyE.mkv	28M
	20170122.Binary counter.exGEmA67dNc.mkv	12M
	20170205.Program counter design.g_1HyxBzjl0.mkv	22M
	20170211.Program counter build.tNwU7pK_3tk.mkv	30M
	20170218.Designing a 7-segment hex decoder.7zffjsXqATg.mkv	30M
	20170226.Using an EEPROM to replace combinational logic.BA12Z7gQ4P0.mkv	55M
	20170305.Build an Arduino EEPROM programmer.K88pgWhEb1M.mkv	107M
	20170318.Build an 8-bit decimal display for our 8-bit computer.dLh1n2dErzE.mkv	65M
	20170402.8-bit computer build - Connecting the bus.-6JAgFWCL9w.mkv	54M
	20170415.8-bit CPU control signal overview.AwUirxi9eBg.mkv	29M
	20170416.8-bit CPU control logic - Part 1.dXdoim96v5A.mkv	74M
	20170430.8-bit CPU control logic - Part 2.X7rCxs1ppyY.mkv	40M
	20170521.8-bit CPU control logic - Part 3.dHWFpkGsxOs.mkv	93M
	20170529.8-bit CPU reset circuit and power supply tips.HtFro0UKqkk.mkv	40M
	20170623.Reprogramming CPU microcode with an Arduino.JUVt_KYAp-I.mkv	55M
	20170707.Adding more machine language instructions to the CPU.FCscQGBIL-Y.mkv	33M
	20171021.Update and PODCAST ANNOUNCEMENT!.Nws5-kp8Blk.mkv	16M
	20171214.The case against Net Neutrality.hKD-lBrZ_Gg.mkv	135M
	20180105.Making a computer Turing complete.AqNDk_UJW4k.mkv	36M
	20180331.CPU flags register.ObnosznZvHY.mkv	81M
	20180421.Conditional jump instructions.Zg1NdPKoosU.mkv	98M
	20180609.Reliable data transmission.eq5YpKHXJDM.mkv	77M
	20180714.Error detection - Parity checking.MgkhrBSjhag.mkv	38M
	20190310.Checksums and Hamming distance.ppU41c15Xho.mkv	46M
	20190428.How do CRCs work.izG7qT0EpBw.mkv	76M
	20190602.Hardware build - CRC calculation.sNkERQlK8j8.mkv	108M
	20190705.The world's worst video card.l7rce6IQDWs.mkv	69M
	20190713.World's worst video card The exciting conclusion.uqY3FMuMuRo.mkv	63M
	20190914.“Hello, world” from scratch on a 6502 — Part 1.LnzuMJLZRdU.mkv	50M
	20191102.How do CPUs read machine code — 6502 part 2.yl8vPW5hydQ.mkv	81M
	20191119.Assembly language vs. machine code — 6502 part 3.oO8_2JJV0B4.mkv	25M
	20191224.Connecting an LCD to our computer — 6502 part 4.FY3zTUaykVo.mkv	46M
	20200201.What is a stack and how does it work — 6502 part 5.xBjQVxVxOxc.mkv	36M
	20200215.RAM and bus timing — 6502 part 6.i_wrxBdXTgM.mkv	67M
	20200229.Subroutine calls, now with RAM — 6502 part 7.omI0MrTWiMU.mkv	29M
	20200404.Why build an entire computer on breadboards.fCbAafKLqC8.mkv	53M
	20200502.How assembly language loops work.ZYJIakkcLYw.mkv	51M
	20200627.Binary to decimal can’t be that hard, right.v3-a-zqKfgA.mkv	80M
	20200801.Hardware interrupts.DlEa8kd7n3Q.mkv	54M
	20200904.What is error correction Hamming codes in hardware.h0jloehRKas.mkv	78M
	20201003.Interrupt handling.oOYA-jsWTmc.mkv	48M
	20201107.Installing the world’s worst video card.2iURr3NBprc.mkv	61M
	20201205.World's worst video card gets better.BUTHtNrpwiI.mkv	136M