Multiple Props Projects List
Add your multiple Propeller Project here
(updated Wed. Jan. 30, 2013)
Two Props Projects
Mindrobots 2 props, Propeller Slave attached to a QuickStart Proto Board, 2 Props running the same Forth images. Connected via 57,600 bps serial link. No channels between Propellers. Slave functioning needs a terminal session. Additional clusters built as needed.
http://forums.parallax.com/showthread.php?139751-Multi-Propeller-configurations-with-PropForth-v-5.0&highlight=SUPERCOMPUTER
Dr_Acula 2 props http://www.smarthome.viviti.com/prop....com/propeller http://forums.parallax.com/showthrea...reless-network
Bill Henning Morpheus - 2 props http://forums.parallax.com/showthrea...le-Prop-Design http://mikronauts.com/products/morph...ucts/morpheus/
Jazzed Propalyzer - 2 props piggyback http://forums.parallax.com/showthrea...for-Propalyzer Obrien 2 props on a solderless breadboard http://www.objectivej.com/hardware/p...ter/index.html www.objectivej.com/hardware/propcluster/index.html
Ale 2 props, communicate via 4 bit parallel bus (Beau's 4-bit sync protocol)
kuroneko 2 props, RAMBlade 104MHz on demoboard (80MHz), 5Mb/s XLINK
Electricsmith 2 props hardwired on PCB with 2 lines connected between each http://forums.parallax.com/showthrea...l=1#post928314
Humanoido 2-Prop-Experiment, 2 props, 1 PEK, 1 on same breadboard http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido Spark 2, 2 props, 1 Proto Board & one in parallel
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido PIGGY-TWINS, 2 props, one piggybacked on another
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido Dueling Breadboards, 2 props, one on ea., f/interface tests
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido BRAIN IN A JAR, 2 props, 1 breadboard, 1 jar
http://humanoidolabs.blogspot.com/p/genealogy.html
http://forums.parallax.com/showthrea...73#post1014473
Clock Loop Prop Dual Big Boy, 2 props http://forums.parallax.com/showthread.php?t=124343
Harley 2 props, requiring more than 32 I/Os and 8 cogs, the master Prop talks to another pcb with keypad and 7-segment + dp LEDs at one baud rate, and comm with 2nd Prop is at a higher rate. This is an attempt to replace some 55 TTL ICs. nickL 2-prop Forth application http://forums.parallax.com/showthrea...Interest-Group
Three Props Projects
Cluso99 TriBlade - 3 props on a circuit board, props working discretely http://bluemagic.biz/cluso.htmbluemagic.biz/cluso.htm http://forums.parallax.com/forums/de...5&m=329999&p=1
Obrien 3 props stacking using Parallax Proto Boards Obrien 3 props on a solderless breadboard
Christian 3 props
drohne235 The Hive Project - 3 props http://hive-project.dehive-project.de http://forums.parallax.com/showthrea...puter&p=771392
Heater 3 props on a TriBlade
Clock Loop Prop BigBoy 3 props versionhttp://forums.parallax.com/forums/attach.aspx?a=45006 forums.parallax.com/forums/attach.aspx?a=45006
Duane Degn Multi Prop Laboratory – 3 props (2 wired + 1 wireless) Added new link! http://forums.parallax.com/showthrea...l=1#post927239 http://forums.parallax.com/showthrea...inuing-Project http://forums.parallax.com/showthrea...Machine-Vision Destructinator 3 props, 1 master + 2 slaves on a solderless breadboard http://forums.parallax.com/forums/de...5&p=2&m=472019
Loopy Byteloose 3 Propeller Stack http://forums.parallax.com/showthrea...Super-Computer
kbash & Missouri Automation - 3 props, Multipropcom three Propellers on one circuit board communicate with each other using only two pins each http://forums.parallax.com/showthrea...-communication
Four Props Projects
Clock Loop BlackBox Sequencer - 4 props http://forums.parallax.com/forums/de...?f=25&m=364607
Obrien 4 props on a solderless breadboard Obrien 4 props proto board stack
Humanoido Spark 4, Tiny Tim, 4 props, two proto boards w/2 props on ea
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido Tiny Tim, 4 props, experimental wiring platform
http://humanoidolabs.blogspot.com/p/genealogy.html
Jazzed TetraProp, printed circuit board with 4 props http://forums.parallax.com/showthrea...eady-to-ship-!
Five Props Projects Obrien 5 props running off a single eeprom
kuroneko 5 props capacity, SpinStudio + 4 M-Modules + 1x1 PropMods
Clock Loop Prop BigBoy, 5 props version http://forums.parallax.com/forums/attach.aspx?a=45021 http://forums.parallax.com/forums/de...?f=25&m=473764
Humanoido Spark 5, 5 props stacked Proto Boards, Spark 6 forerunner
http://humanoidolabs.blogspot.com/p/genealogy.html
Brian Riley 5 props Multi-Prop PF5. PPUSB slaved to an original PP, both running EEPROM kernel, the PP has two 512 EEPROMs and the USB has one
Six Props Projects
Cluso99 - SixBlade - 6 props with two boards
Humanoido - Spark 6, 6 props 3 proto boards 2 props on ea, led to Spark 8
http://humanoidolabs.blogspot.com/p/genealogy.html
Seven Props Projects
Clock Loop - Prop BigBoy, 7 props version http://forums.parallax.com/forums/attach.aspx?a=45020
Mikediv - Quasi-Prop Tower, 7 props version http://forums.parallax.com/showthrea...Super-Computer
Eight Props Projects
Obrien - 3-dimensional Hypercube, 8 props, 32 cores @ 4 per chip http://www.objectivej.com/hardware/p...ter/index.html http://www.leonheller.com/Propeller/...OM_files/a.htm
Jazzed - OctoProp 8 stacked props Humanoido - Spark 8, Tertiary ADJUNCT, 8 props 4 proto boards 2 props on ea
Nine Props Projects
Clock Loop - Prop BigBoy, 9 props version http://forums.parallax.com/forums/attach.aspx?a=45023
Ten Props Projects
Humanoido - Propalot - 10 props on solderless breadboard
http://humanoidolabs.blogspot.com/p/genealogy.html
http://forums.parallax.com/showthrea...palot&p=890215
Humanoido - Spark 10, 10 props, 5 proto boards, 10 props total
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido - TTB Test Bed of Ten, 10 props single board
http://humanoidolabs.blogspot.com/p/genealogy.html
Twelve Props Projects
Clock Loop 12 props, 3 black box sequencers in sync, each sequencer has 4 props
Humanoido - Twelvenator, aka Board of Twelve, 12 props on green board
http://humanoidolabs.blogspot.com/p/genealogy.html
DaveJenson - Test Station, 12 Props, 10 temp sensor boards talk to Master http://forums.parallax.com/showthrea...=124172&page=3
Thirteen Props Projects
BTX 13 props, one master + 12 slaves, hand assembled boards http://forums.parallax.com/showthrea...r-board./page2
Yoichi Nagashima Shizuoka U, 13 Props, Dodeca Prop, 2 displays, 12 video monitors in SUAC
Fifteen Props Projects
Humanoido UltraSpark 15, 15 props, interrupted stack Proto Bds, photo available
http://humanoidolabs.blogspot.com/p/genealogy.html
Seventeen Props Projects
BTX - Multi Propeller Board 17 props, One is: Master - Keyboard - Video Out - SD card reader. And 16 slaves. http://forums.parallax.com/showthrea...r-board./page4
TWENTY & OVER PROPS
Twenty Props Projects
Humanoido - Tertiary 20, 20 props, 15 proto boards stacked 5 props, photos
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido - UltraSpark 20, 20 props stacked, photo, used for MLEPS
http://humanoidolabs.blogspot.com/p/genealogy.html
Humanoido - Boe-Bot Brain Project, 20 props
http://humanoidolabs.blogspot.com/p/genealogy.html
Twenty-One Props Projects
Humanoido - iBrain 21 Propeller boards, 168 Propeller Cogs, still growing
http://humanoidolabs.blogspot.com/p/genealogy.html
TWENTY-FIVE PROPS & OVER
Twenty-Five Props Projects
Humanoido - MLEPS Super Language Machine, 25 props
http://humanoidolabs.blogspot.com/p/genealogy.html
Twenty-Eight Props Projects
Clock Loop - Prop BigBoy, 28 props on breadboards http://forums.parallax.com/showthrea...=124343&page=3
Forty Props Projects
Humanoido - UltraSpark 40 Supermicrocontroller, 40 prop tower, 320 cores, 6,400/8,320 MIPS
http://humanoidolabs.blogspot.com/p/genealogy.html
http://forums.parallax.com/showthrea...raper&p=921524
Humanoido - Boe-Bot Largest Brain 40 props, 321 processors total http://forums.parallax.com/showthrea...oeBot&p=922262
FIFTY PROPS & OVER
FIFTY-FIVE PROPS
Clock Loop - The Perturbation Machine http://forums.parallax.com/showthrea...ns55-Propeller
A machine with 1 master and 54 slaves, "432 cores, 1620 I/O, 150Kbps communication, word enumeration, 54 randomly generated IDs, To study the nature of randomness in a digital processor network using the same clock source, 54 prop chips were all connected to a master prop. I like having 1,620 I/O at my fingertips. To study the nature of randomness in a digital processor network using the same clock source, 54 prop chips were all connected to a master prop. The master prop holds the eeprom, and accepts prop plug input for memory/program download. The master prop controls the reset and clock lines for all 54 props. The master prop also sends all combinations of a word out broadcast to all 54 props that are connected bus network style.
When a slave prop sees its number broadcast on the bus line, it replys with the same number. Then the slave prop runs code depending on the number broadcast. Its possible to broadcast messages to all props, or single props, after the initial enumeration is done. Repeats are possible in any system that has reduced choices and increased speeds. If repeats are a worry, then a long sized variable should be used in the random ID generation. Enumeration of the Randomly generated ID's. Every step up in variable size reduces the speed that the whole system can communicate at due to more data being sent over the same speed pipe. The communicaiton speeds of the bus network can be increased with lower value resistors, but the power draw will increase, if the props are connected to the bus with lower values, one needs to adjust all other bus resistors in relation.
Having? You take 55 props, some programming (attached), a bag of 470 ohm resistors(500) (not attached), a 3.3v regulator (2A), a huge breadboard, wire, 57 leds. Using the Real Random object in the obex created by Chip Gracey. This object generates real random numbers by stimulating and tracking CTR PLL jitter. It requires one cog and at least 20MHz. 432 cores, 1,620 I/O, 64.8 A max peak draw - 10.8A continuous, @3.3v. 150kbps - communications using the same rx/tx lines for programming all 54 props. Word location enumeration of 54 randomly generated ID's"
ONE-HUNDRED PROPS
Humanoido Propeller Big Brain, 100 props (Build time = 1 Year)
http://humanoidolabs.blogspot.com/p/genealogy.html
http://humanoidolabs.blogspot.tw/p/t...nformatin.html
The first working massive Machine Brain with 100 Parallax Propeller chips. Designed to explore machine intelligence. Reached Semi-Cognizant state in 2011.
The 800-Core Big Brain is a simple fun hobby project to run experiments and play with endless possibilities. Approximately 16,000 MIPS and 3,200 I/O ports. 3 Partitions - the 3rd is a Magic Floating Partition - holds any number of props from 1 to 50, allows removal & loan to other projects.
Talk, sing, dream, learn, evolve, demonstrate Life, color TV, hearing, speech recognition, keyboard, mouse, 2 LCD displays, host boards, compatibility (Stamps, Props, PCs, Macs), sound out, mic in, stomach, Brain Base, Brain Spans, Brain Stem, EXOskeleton, multiple languages, over 100 x 64K distributed RAM/ROM, LED enabled, crystal/EEPROM supported, Mac/PC support computers,
3 TeraByte hard drives, Neural Matter Injector syncs & load props in parallel. Developed ParaP, AtOnce, EnhancedChip technologies - parallel-parallel operations, loading @ once, increase p^N, inject 100,000 Simplex Neurons. Expanding Array. Created modest RTOS - handles cogs, loading, timing, neural matter distribution.
Cloning. Executes all-chip-multi-enumeration in a second. Expanding Arrays. HYBRID interface (Serial Communications, Daisy Chain Token Ring Topology, Prop to Prop, Parallel), RI Reduction Interface, AE Automatic Enumerator, Waveform Reliability Filter, No Parts Technology to reduce cost.
Addendum: Many Spinoffs. New Big Brain Index:
http://humanoidolabs.blogspot.tw/p/index.html
[The Big Brain was upgraded to include an open Partition and was expanded with more props]
Humanoido 100 props. RX Propeller Supercomputer. A Supercomputer made from 100 Propeller chips. This distributed parallel machine with 800 RISC computers qualifies as a retro supercomputer circa 1990s. With 1,600 Counters, 3,200 I/O, 6,400 K Bytes RAM/ROM, 16,000 MIPS theoretical. Proposed Propeller Supercomputer Kit with Schematic Diagram, Enumerator, Parallel Loader, Operations Algorithm, Applications Outline, Instructional PDF... RX Propeller Supercomputer
OVER ONE-HUNDRED PROPS
Humanoido Over 100 props, variable, 100+ Hybrid Parallax Propeller Supercomputer, completed, upgrade to the Big Brain. The most powerful TeraFLOPS machine at Humanoido Labs. Made by Humanoido. Reached equivalent supercomputing speed in 2012 comparable to the Top 500 List. Massive design with all available props exceeding 800 Propeller RISC processors and 729 Intel and AMD processors and 100,000 VIP Processors. Currently reached the 12th level. Utilized for the Ultra Space Program, Brain Enhancement and AI Projects. More Specs and Information at:
http://humanoidolabs.blogspot.tw/p/specs.html http://humanoidolabs.blogspot.tw/p/index.html http://humanoidolabs.blogspot.tw/201...brain-era.html http://humanoidolabs.blogspot.tw/p/this-is-about-informatin.html
Numerous other massive Propeller based machines listed here.
http://humanoidolabs.blogspot.com/p/genealogy.html
Works in Progress
Michael O'Brien OBrien Labs: Distributed Parallel Processing
Target goal = 80 Props / 640 cores. "80 Parallax Propeller 8-core microcontroller based parallel processing computer in progress... And now we start the process of getting an 80 propeller chip / 640 core multiprocessor working. Why 640 cores?
In early 2008 i became increasingly interested in hardware based parallelism. The majority of the design and defect issues we are seeing in enterprise software tools development involve concurrent processes and how to fully utilize available cores in existing and future systems. Parallization of software is a huge problem, i decided to approach this from the additional view of "bottom-up" engineering - by designing and writing "architecture-aware" simple systems to start.
A "base-case" architecture would initially do away with microprocessors all together and design a purely parallel machine with very simple cores - like a 1-bit symbolic ALU consisting of a few logic gates. We could realize this custom machine using standard (since the 70's) TTL HSCMOS chips or even a single FPGA. The parallizable algorithm of choice is cellular automata for a symbolic machine or the Mandelbrot set for a floating point machine - we will implement the 256 function/1-dimensional/2-state Wolfram CA in hardware for our first base case parallel machine.
The PCAM implements a boolean function of 3 variables (left,center and right cells on a cell array) - this function has 2^2^n states or 256. This 8 bit byte fits very nicely in the 74 TTL logic family as a single 151/251 data selector can be used as the core of each ALU. Before I start the process of designing modular 2-8 chip boards for a near production prototype - my workspace does not fit more than 40 breadboards on a what - a whiteboard.
We will be encountering issues like power/voltage loading, parasitic capacitance, TTL-HSCMOS fanout and placing at least 4000 wires. Not to mention the hardest part of the process - the software. Here is part of our 80 propeller 640 core propeller multiprocessor prototype in progress - see you in a couple months. You can follow progress of the kilocore prototype on the kilocore.blogspot.com blog."
Laser-Vector 2-props, establish wireless data link over long distance
Bigfoot computer designed physical cube of 6 SMT props - not built
Duane Degn Multi Prop Lab, 6 props (4 wired + 2 wireless), design only http://forums.parallax.com/forums/?f...474065#m474065
Mctrivia CAD Designed a breakaway board for 8 SMT props http://forums.parallax.com/forums/de...?f=25&m=429487
Obrien The photo at kilokore web site shows partial assembly of 68 props being wired on breadboards. We await more information and details. According to Obrien, he is using the techniques developed by Clock Loop. http://www.kilocore.com/ http://www.objectivej.com/hardware/p...etion_640h.jpg
Mctrivia propComputer, idea for 7 props on one board http://forums.parallax.com/showthrea...ers-on-1-board.
Cluso99 - pcb, 10 x TriBlades count as 30 but never actually built. The TriBlade pcb was built as 2x5 panels of TriBlades and are broken apart later. http://www.cluso.bluemagic.bizwww.cluso.bluemagic.biz
Cluso99 - pcb, 10 x RamBlades count as 10 but never actually operated. The RamBlade pcb was built as 2x5 panels of RamBlades and are broken apart after assembly. http://www.cluso.bluemagic.bizwww.cluso.bluemagic.biz)
Jazzed - multiprop pcb. IIRC, 30 prop pcbs on a panel
Clockloop Huge Propeller Grid - target goal 504 props / 4032 cores
http://forums.parallax.com/showthread.php/127983-55-Parallax-Propeller-s-Parallells-Processing-of-Permanent-Perturbations./page2
And now I reveal the point of designing this huge propeller grid.
A.C.S.E.R. Structure complete, wiring/soldering/programming up next. Dec 21st 2012, target completion date, confirmed. Initiate phase 2: soldering minimal antenna and firmware design for hydrogen resonance test. This initial design will require a minimum of 42 propeller chips, with a desired target of 84 chips. After tests with 84 chips, the next step up is to install and wire the maximum # of 504 prop chips. Yes, the final design will require 504 propeller chips. = $4,000.
Once the inital 42 chips are soldered and the system is working, and I have a running program, I will start a new thread in projects outlining the details of this device, its capabilities, tests, methods, schematics, pcb design files, spin programs, and more detailed video and images. The most important part of documentation will be the success or failure of this device to actually do what I intend it to do. It’s (very likely) possible that other uses will be found as I start to test with it.
Humanoido The Blitz Krieg. The most massive and ultimately powerful multifunctional Propeller machine ever designed at the Humanoido Labs Universe. Over 100,000 processors. Designed as a new generation Propeller-chip-based thinking machine that exceeds previous ratings. BK has greater design, creativity, speed, function, size, app capability, and number of processors. Allows exploration into the farthest frontiers of machine intelligence. Designed with previous processor enhancements and the inclusion of recent technology from HLU.
Contributors
Ale
Bigfoot
Bill Henning
Brian Riley
BTX
Christian
Clock Loop
Cluso99
DaveJenson
Destructinator
Dr_Acula
Drohne235
Duane Degn
Electricsmith
Harley
Heater
Humanoido
Humanoido Labs
Jazzed
Kbash
Kuroneko
Laser-Vector
Loopy Byteloose
Mctrivia
Mikediv
Michael O'Brien
Mindrobots
Missouri Automaton
Nglordi (nickL)
Yoichi Nagashima
BIG BRAIN made by Humanoido is a giant intelligent AI machine. Over twenty years in the making, living and sentient, approaching one trillion processors/constructs. Join us in the exciting adventure as it continues to evolve!
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Sunday, July 25, 2010
Wednesday, July 14, 2010
Smartest BoeBot
Boebot is an excellent robot platform for doing experiments. In this tethered experiment, the intelligence of BoeBot is massively increased.
Forty prop chips, providing 320 tiny RISC computers, are added to BoeBot along with the BASIC Stamp Board of Education using twenty Propeller Proto Boards in a high rising skyscraper stack. Available ports now exceed 1,280 and computational speed tops out above a blazing 6,400 MIPS. The balance point is shifted slightly towards the front of BoeBot to increase stability during motion. Motions are typically slowed to stabilize the platform during travel as Smartest BoeBot carries around his big new brain.
Forty prop chips, providing 320 tiny RISC computers, are added to BoeBot along with the BASIC Stamp Board of Education using twenty Propeller Proto Boards in a high rising skyscraper stack. Available ports now exceed 1,280 and computational speed tops out above a blazing 6,400 MIPS. The balance point is shifted slightly towards the front of BoeBot to increase stability during motion. Motions are typically slowed to stabilize the platform during travel as Smartest BoeBot carries around his big new brain.
It moves along just fine. If you have seen the space shuttle being moved
with a special transport to the gantry, it sort of resembles the
Smartest BoeBot. It looks top heavy, as
does the Space Shuttle, however it's well balanced, and it moves along
slow and perfectly fine on a smooth level surface. From what I can see,
the servos work just fine at the slower speed (move slow, start slow,
stop slow, and use ramping). A bonus is the added traction to the rubber
wheels. I use the standard battery pack and for extended life, use the
optional add on battery. For the brain, of course a tether must be used to supply power from an external source. Here the power depends on the clock mode selected.
Details
The project robot has 321 processors in parallel and 1,296 controller ports. There's two Props per board and 20 boards. Boards are PPPBs, Parallax Propeller Proto Boards. The bottom board is the motion control board BOE which uses a BS2 and PBASIC language. The boards above have Propeller processors with SPIN programming.
Arising AI Machine Intelligence
AI self awareness and machine intelligence is a topic that comes up frequently as you can see we
are constantly moving closer to achieving this. It's not that far away.
But it does appear that the machine brain will think differently than the human brain
to achieve the same goals. I think great minds can appreciate the self
aware concept and welcome it. We are still approaching the full
utilization of parallel computing techniques with multi processor chips
and multi chip boards, though progress is being made even at the hobby
level
Updates - No Stacking? Introducing the SuperTronic BoeBot!
Since the creation of the above mentioned Smartest BoeBot robot machine, the Big Brain Propeller project has reached a level of semi cognizance and heralded in the new invention of the SuperTronic machine. The Propeller SuperTronic technique allows the creation of faster machines with more processors and fewer chips. Therefore, the results of these studies and experiments can now be applied to a new "Smartest BoeBot" with more capability. Also, since the time of the original "Smartest BoeBot," new inventive software was created for parallel Propeller machines, and this can also add features to a new Smartest Boebot.
The SuperTronic BoeBot has fewer chips but more processors, and has different intelligence compared to the previous Smartest BoeBot.
The preliminary design is a bigger newer smarter Smartest Boebot in the works using a new concept that does not use stacking. Twenty boards are arranged according to an exoskeleton and placed on top of the new Boebot robot platform along with a BS2 board for various compatibilities. Exoskeleton boards face the outside where wiring is easily reached. This arrangement is great for creating various wiring and rewiring for changing experiments. Advantages here are easy access to the wiring on the outside and all the extra space is usable on the inside of the hollow exo. Now for some numbers, which are all relative of course. The plateau reached is a completely new 54,400 MIPS design for the exo with 21 boards, which allows it to hold a standard cache of 20 Propeller chips, 160 cogs, and approximately 20,640 total processors using techniques of the Big Brain SuperTronic Era (not counting any BASIC Stamps used in the BoeBot design).
SuperTronic BoeBot Specifications
20 x 0001 = 20 Parallax 32-Bit 8-Core Propeller chips
20 x 2720 = 54,400 MIPS Relative Speed
20 x 1032 = 20,640 Total Computer Processors
20 x 1000 = 20,000 VIP processors, Threaded+Deterministic Parallel
20 x 0016 = 320 Counter Processors
20 x 0008 = 160 Cogs (RISC Processors)
20 x 0008 = 160 Generator Processors
20 x 0032 = 640 Ports
20 x 064K = 1,280K RAM/ROM
Platform: Parallax BoeBot Robot
Interface: Parallel Processing
Projected Software: Loader, Learner, Roamer, Seeker, Avoider, Talker
Functions: Explores randomly, seeks light, avoids light, talks, learns, remembers, total recall
About the Exo
The Exo can have four sides, but usually a slot or two is open on one side to reach into the center for mounting of other components and expansions. Boards connect with simple nuts, bolts and angle iron. Use nylon bolts, nuts, and phenolic washers to reduce weight. Finished wiring can have a Seran type plastic wrap to ensure wires do not disconnect or dislodge. The Exo is not heavier or lighter than a Stack. The Exo advantages of easy access are great and it opens up center line space for upgrades and peripherals. At the base of this space, more batteries could ensure the elimination of the tether and make the new Smartest BoeBot more autonomous.
Links
www.parallax.com
SuperTronic Brain
SuperTronic Brain Era
Era
Smartest BoeBot
Updates - No Stacking? Introducing the SuperTronic BoeBot!
Not stacked - Exo has board wiring on the outside |
The SuperTronic BoeBot has fewer chips but more processors, and has different intelligence compared to the previous Smartest BoeBot.
The preliminary design is a bigger newer smarter Smartest Boebot in the works using a new concept that does not use stacking. Twenty boards are arranged according to an exoskeleton and placed on top of the new Boebot robot platform along with a BS2 board for various compatibilities. Exoskeleton boards face the outside where wiring is easily reached. This arrangement is great for creating various wiring and rewiring for changing experiments. Advantages here are easy access to the wiring on the outside and all the extra space is usable on the inside of the hollow exo. Now for some numbers, which are all relative of course. The plateau reached is a completely new 54,400 MIPS design for the exo with 21 boards, which allows it to hold a standard cache of 20 Propeller chips, 160 cogs, and approximately 20,640 total processors using techniques of the Big Brain SuperTronic Era (not counting any BASIC Stamps used in the BoeBot design).
SuperTronic BoeBot Specifications
20 x 0001 = 20 Parallax 32-Bit 8-Core Propeller chips
20 x 2720 = 54,400 MIPS Relative Speed
20 x 1032 = 20,640 Total Computer Processors
20 x 1000 = 20,000 VIP processors, Threaded+Deterministic Parallel
20 x 0016 = 320 Counter Processors
20 x 0008 = 160 Cogs (RISC Processors)
20 x 0008 = 160 Generator Processors
20 x 0032 = 640 Ports
20 x 064K = 1,280K RAM/ROM
Platform: Parallax BoeBot Robot
Interface: Parallel Processing
Projected Software: Loader, Learner, Roamer, Seeker, Avoider, Talker
Functions: Explores randomly, seeks light, avoids light, talks, learns, remembers, total recall
About the Exo
The Exo can have four sides, but usually a slot or two is open on one side to reach into the center for mounting of other components and expansions. Boards connect with simple nuts, bolts and angle iron. Use nylon bolts, nuts, and phenolic washers to reduce weight. Finished wiring can have a Seran type plastic wrap to ensure wires do not disconnect or dislodge. The Exo is not heavier or lighter than a Stack. The Exo advantages of easy access are great and it opens up center line space for upgrades and peripherals. At the base of this space, more batteries could ensure the elimination of the tether and make the new Smartest BoeBot more autonomous.
Links
www.parallax.com
SuperTronic Brain
SuperTronic Brain Era
Era
Smartest BoeBot