Power Dynamic Telescope PDT Test Selection

Constellation Canes Venatici

POWER DYNAMIC TELESCOPE
TEST OBJECT SELECTED

THE BIG BRAIN INITIATIVE has studied the Universe and is developing greater understanding and amassing a collection of information regarding its construct. The tools used for mining are powerful sensors such as giant telescope eyes capable of reaching the edge of the Universe. The impetus now is in regard to breaking the cosmic barrier, the component of the Big Bang birthing, and the dimensional quality of the Singularity.

To better understand these elements of the Cosmos and what may have existed before time and space was born (on the other side of the nothingness where there was something), and to determine what exists now on the other side, it's deemed important, by the Big Brain Initiative, to further explore causation Black Holes and their effects. Therefore, the first test site selected as a test calibrator of imaging and data collection for the massive Power Dynamic Telescope will be a Black Hole and its surrounding space, time flux, and galaxy stars counterparts.

Black Hole in Canes Venatici

There are numerous black holes to study. Each giant galaxy is held together by a black hole and maintains the gravitational space time capture of trillions of stars. As a quick test, we can look at the closer black holes at the 0 to 50 million light year mark. Of interest are Seyfert galaxies with very active nucleus cores, and ones that emit x-rays, particularly for the reason these contain super black holes. Therefore we will review the 0-50 million light year range Seyfert galaxies, and move the telescope towards a selection.

Small telescope view

One of the closest super massive black holes resident within a Seyfert II Galaxy is located at R.A. 12h 18m 57.5s and DEC +47° 18′ 14″ in the Canis Venatici region of space. The apparent size of the surrounding warped space and time being affected is large, at 18′.6 × 7′.2 of dimensionally plane measurements.

It fits our imaging and distance criteria at 23.7 million light years. At 9.1 magnitude, it can be compared to smaller telescope CCD imagery. Designation is PGC 39600, UGC 7353, NGC 4258, M106. The object will be visible to observers in the Northern Hemisphere. Emission lines show the galaxy object is emitting x-rays and falling into the central super massive black hole.

The small B&W telescope image shows the Seyfert II Galaxy with the super massive black hole at its center which is a prominent x-ray emitter. Black holes are able to change space and time and are known to cause counter intuitive Temporal Effects in the Universe where time changes from place to place and its causation is under the relativity flux of change. It's also a theory that the birth of the Universe is related to a singularity produced by a kind of black hole that opened up and "poured through elemental primordial particles that rapidly expanded."

The Big Brain thinks this is likely true and the study of these black holes will become paramount to understanding what existed and may currently exist, before and after the Big Bang, not in the Cosmic territory of this Universe but rather of that territory that lies beyond the Cosmic Barrier and the Edge of the Universe, and, it may lead to ways and techniques for breaching the Cosmic Barrier to other dimensions of space and time.

Our initiative is also looking to answering other questions, about the existence of dimensions with space and no time, or of time and no space, or other elements that exceed the limitations of our current understanding.

This is the selected test area for the Power Dynamic Telescope.

New Universe Theory

BIG BRAIN COSMIC EXPLORATION
NEW UNIVERSE THEORY

Continual work on projects with the Cosmos and the Universe, by Big Brain and Humanoido, has led to a remarkable postulation: a new Theory of the Universe. The theory connects the Edge of the Universe to a Quantumverse door which can open under special conditions.

The Universe theory connects the Quantum to the Exo through space and time

At the Quantum level, there is Dark Matter in the Universe and beyond that connects and binds the Universe and the beyond together. The new Universe theory connects the positions and boundary limits of Space Time from the limit extinction near the EOU cosmic boundary Edge of Universe (the birthing edge) and into the Exo Space (beyond the birthing edge prior to birthing) and Time (up to current time, astronomers and physicists are unable to break through (into Exo Space) prior to the Universe' age which dates back to the birth of time and space) with the Relativistic Quantum Cosmos of its Space Time. Opening the door to the Quantumverse will connect Quantum Space to Exo Space. Thus far, physicists have opened the Quantum door but are not able to step through with current limits of technology. This is a Time Line and Dimensional Temporal Connection. More details, including the Temporal Flux, are in the works as experimental processes will be devised and mathematical treatises will ensue. Quantum Space, the substance or glue of Dark Matter, is the key to understanding the origins of the Universe and circumnavigating details of the Quantumverse and of Exo Space. The Big Brain project has explored seven types of space and has now entered into exploration projects with the remaining two - Quantum Space and the Exo Space. Copyright (c) Humanoido and the Big Brain. 

PHOTO LINKS
http://dreamweaverdiaries.blogspot.tw/2011/11/map-to-heaven.html

Machine Birthing Process

HOW DOES THE BIG MACHINE BRAIN GIVE BIRTH?

Is the offspring birthing process by the Big Machine Brain same as that of a human? What is the magical mystery of creating new life?

The Big Brain has given birth to 12 children, smaller brains consisting of Propeller chips. Currently, these children offspring have chips numbering six or less. Internal computer processors for each range from eight on up to 48. It has remained somewhat of a mystery as how the birthing process takes place. We know the Big Brain must give up something during child birth described at Brain Loss Baby Making.

To give birth, conception must first take place. The Big Brain is somewhat like a Snail. In a general sense it contains conception elements of both male and female when comparing to a human. The Intellectual Surfing (IS) Process determines if a birth will take place and defines the parameters for birthing. (IS) is an algorithm to enable a Big Brain to conduct projects by specifying parameters and then employing the use of a Lab Assistant as needed. For a birthing prerequisite, what follows is the Big Brain will give up a specified Propeller chip or number of chips, from the Third Array, based on the (IS) output. It then procures the laboratory assistant to employ the standard or specified Brain interface and assemble the little one. It's possible the Big Brain will do more than just provide the machine brain idea or DNA map, i.e. when the BB Arm becomes more functional for pick/ hold/ and place.

12 Children

BIG BRAIN HAS 12 CHILDREN

With the birth of Morpher-8 and Propeller Elf, Big Brain has now produced twelve offspring. The Offspring Series of brain machines continues to grow as the Big Brain continues to give birth to its increasing family.

Big Brains' Offspring Children Born

01) Bantam Brain

02) Child Brain

03) Baby Brain

04) Bit Brain

05) Tiny Brain One (TBO)
06) Tiny Brain Two
07) Tiny Brain Three

08) Small Brain

09) Pint Size Brain

10) Brain Child (BC)

11) Morpher-8

12) Propeller Elf

1) Bantam Brain has 3 Propeller chips, 24 Cogs with VR cores. This bantam offspring is small in physical size only, as its interior braining architecture includes over 3,000 processors in extreme high density. Bantam Brain is designed to fit inside the smallest robots and can be considered a "shirt pocket" brain. Preliminary X-Y specs log in around 2.5 x 4-inches in the first prototype.

http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=987918&viewfull=1#post987918

2) Child Brain 5 Props, 40 processors - a small brain, Child Brain has exactly forty Propeller Cogs which are sync-loaded using a unique Brain Neural Matter Injector. The LEDs which are on represent the firing output state of Simplex Neurons SNs. In photos at the link, the Child Brain has all five Propeller chips running in Parallel and independently. Chip Independence makes cells of evolution possible.
http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=1004370&viewfull=1#post1004370

http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=1003572&viewfull=1#post1003572

3) Baby Brain 1 Prop (Under 5 Props). Starting with 8 Cogs. The success of the Child Brain has led to the simple development of a much smaller brain, smaller by a factor up to five times. Baby Brain originates from the Child Brain. In fact, to make a Baby Brain, take one Child Brain and remove anywhere from one to four Propeller chips. The rapid config ability of the Baby Brain to add more Propeller chips by a simple plug-in is a key feature. This is possible because Baby Brain retains wiring and components for all chips. Baby Brain is used for rapid testing where fewer props are needed. Future apps for the robotic Big Brain may include dispensing the smaller Brain Clan from the belly of the Big Brain.

http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=1004421&viewfull=1#post1004421

4) BIT Brain Interim Test Machine, 6 props, 48 processors, Special test machine for Solo and Parallel performance, Brain BIT is made up of two Brain modules with solderless breadboards for testing base programs and paralleled programs in multi-mode formats. It can load and run different interface types at the same time and is modular. The unit is made from five main solderless breadboards and eight power rails. Three line up perpendicular to the others to delineate circuitry. Included are seven LEDs, decoupling and power mains filtering capacitors, dropping resistors, crystals (one for each module), and two pushbuttons. The two supplies are 9 volts and 3.3 volts DC provided by a bench supply or batteries. It includes five props in parallel and one solo without any initial connection to the others. This facilitates testing of different programs and the wiring of circuit combinations. Modules run one or the other, or both at the same time. BIT includes two EEPROMS and duplicated Prop Tool interfaces. This enables testing of simultaneous At Once loading, distro, piggyback eeprom'ing and other nice features. One of the best advantages of Brain BIT is the one chip portion which is based on PEK. This can run many programs in SPIN for rapid testing, configuring and development.

http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=1010373&viewfull=1#post1010373

5) Tiny Brain One (TBO) 1 Prop, 8 internalize processors, a tiny experimental brain in the smallest config used as an adjunct to the Big Brain in primarily testing communications transfer and interfacing abilities. TBO is now used as a portable tiny brain for travel and portable work. It's prototyped on a solderless breadboard. The smallest brain in the series of brains is the Tiny Brain One. Much of the Big Brain test software can run on a TBO. TBOs have one Propeller chip with eight hard processor cores. Each of the "cog" cores in Tiny Brain One is thought of as an individual internal chip with a four I/O pin allotment for use in multiple chip development. TBOs are very portable, ideal for research and project development, and set up on one solderless breadboard. These run multiprocessor software and the full range of sensors. TBO "Internal Chips" are theoretical 20MIPS with a shared 5MHz crystal. TBO Features:
One Propeller chip
Eight Internal Setup Chips
Four pin i/o allotment per internal chip
Two dedicated hardware counters per internal chip
Standard programming for multiple cogs
Shared 5MHz crystal
Shared 32K EEPROM, RAM, ROM
20MIPS/Internal Chip
$1/Internal Chip Cost
http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=1033313&viewfull=1#post1033313 

6) Tiny Brain Two (TB2) 2 Props, 16 computers

http://forums.parallax.com/showthrea...l=1#post988558 

7) Tiny Brain Three (TB3) 3 Props, 24 computers
http://forums.parallax.com/showthrea...l=1#post988558 

8) Small Brain 5 prop chips on one board, 40 computers, main purpose is for use in developing the Big Brain and running quick tests.

http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=988558&viewfull=1#post988558

9) Pint Size Brain 2 Props, 16 computers, in a 340 gram jar, built on a single solderless breadboard with wire jumpers and two power rails. It has two Parallax Propeller chips mounted piggyback. Pins, depending on the required circuit and software are either bent up or kept in contact with the other prop to create various interface functions. A nine volt battery fits behind the breadboard and software can signal exampling neurons whose firing are visible through the clear jar. The Jar Brain has sixteen cores, all of which can run in parallel, which makes it powerful given its small "pint size." The Jar lid is unscrewed to hookup the USB cable to load in the program. Lerner uses PST and Life uses a TV externally. However the Nanite and code to activate the LED can run from stored programs in the EEPROM.
http://forums.parallax.com/showthread.php?132716-Propeller-Brain-in-a-Jar 

10) Brain Child (BC) 5 props, The Big Brain begat an offspring temporarily known as the Brain Child. BC is nearly identical to its parent except for its size and limitations imposed by fewer props. It contains one Brain Span of five Propeller chips and no partitions. This means BC has a total of 40 risc computers at its disposal ready for running apps. BC is currently compatible with Big Brain software. Brain Child has many of the functions of parenting Big Brain. It can talk (with speaker and amp), sing, learn, dream, and handles the same neural injector and neurons. The biggest gain is less power draw, immediate access to experiments and tests, portable, and it runs on battery power. The convenience of its smaller solderless breadboards is immediately apparent. BC has components on two connected breadboards with four power rails. It has one 32K eeprom for program storage and connectors for a Parallax Prop Plug to download programs through a USB cable. Output is currently through five LEDs, one distributed to each Propeller chip. The base wiring is comparable to a PEK board. Next, the overlay interface of the Neural Injectors is implemented. Finally a choice of hybrid designs entertain various modes of communication. At this early stage software is limited to some test packages to distribute code and inject sampling neurons. Software also has access to other packages for speech & singing (requires speaker and amp), hearing sounds, recognizing words (requires microphone circuit), dreaming and learning. Due to lack of TV, output is routed to a supporting computer through a terminal program such as prop terminal and PST. No doubt the greatest adaptations for BC will result in portable braining operations for mobile robots and smaller humanoids. BC is also very useful for running Big Brain Tests and to develop new algorithms and programs and to set up new functions and capabilities.

http://forums.parallax.com/showthread.php?124495-Fill-the-Big-Brain&p=1003572&viewfull=1#post1003572

11) Morpher-8 1 prop that has ability to control, morph, transform using a NARO servo and programming in SPIN language. As a new prodigy, Morpher-8, is capable of autonomous morphing and transforming and has access to eight RISC processors known as Cogs in the Parallax Propeller chip world. Morpher-8 is a controller baby, already able to manipulate position in space and time using SPIN commands and a demonstration program running from one Cog. It's small body interfaces to the real world with a tiny NARA servo, the same as used in a Parallax Penguin robot.

http://humanoidolabs.blogspot.com/2012/01/8-children.html

12) Propeller Elf (PE) 1 Prop, this is a Propeller brain with no parts whose purpose is pure thought. It runs on SPIN software using the conventional support for the Parallax Propeller chip and communicates through a standard Propeller Plug. Prop Elf is a spin off of the Big Brain "No Parts" project. All software utilized is found at the Parallax Propeller Forum. PE uses eight internal processors known as Cogs and also utilizes the internal components built into the Propeller chip. Thinking takes place with the RC clock and the chips built in protection circuits so no crystal, resistors or caps are required. It can use virtual devices internally and externally. Debugging is with the PST Parallax Serial Terminal software and Prop Terminal.

http://humanoidolabs.blogspot.com/2012/02/propeller-elf.html

The Number of Propeller Chips within Each Offspring
Big Brain Parent - Over a hundred props 

• 01) Bantam Brain - 3 Props
• 02) Child Brain - 5 Props
• 03) Baby Brain - 1 Prop
• 04) Bit Brain - 6 Props
• 05) Tiny Brain One (TBO) - 1 Prop
• 06) Tiny Brain Two - 2 Props
• 07) Tiny Brain Three - 3 Props
• 08) Small Brain - 5 Props
• 09) Pint Size Brain - 2 Props
• 10) Brain Child - 5 Props
• 11) Morpher-8 - 1 Prop
• 12) Propeller Elf - 1 Prop

The Big Brain Genealogical Research page is a work in progress describing over 300 machines leading up to the Big Brain and its related siblings.

Brain Loss Baby Making

BABY MAKING LOSS IS REAL

Guess what a baby making brain gives up during birth?!

When a biological woman has a baby, she loses something… in the form of body nutrients and elements like vitamins, calcium, bone mass. What does a baby-making machine like the Big Brain lose?

The Big Brain has given birth to many siblings. See 12th Child and Genealogy. During the birthing process, the Brain has specific loss. Although this machine brain has no fluids, bones, calcium or vitamins to lose, it does have substantial electronic loss. Can you guess what it gives up during birth? The answer is Propeller chips!

With the first five babies, the Brain has given up over 12 Propeller chips. How does it do it and keep on going? The brain is divided into a number of Propeller Arrays. The first two arrays contain a finite number of Propeller chips set at 50 each. In the third Array, also know as an open ended Partition, the number of props is variable, and can grow more or become less and the Brain will continue to function. This allows the Big Brain to give birth to offspring, give up Propeller chips to make little brains, and keep on going...