A vCAD Replicator is a very fascinating example of technology best known for its ability to make practically anything, even the most sophisticated of computer electronics. Fascinating. Science fiction makes use of the term replicator from time to time, since this is no doubt the origin of the term. But here today I've decided to present a more accurate definition.
A replicator by definition makes use of mass portation techniques to build up and mold geometric objects all under complete computer control in a specialized environment which is usually a vacuum. First and foremost a replicator requires the appropiate raw materials to work with. It also requires sophisticated computers and software and a proper power supply. It is a manufacturing technology whose full capabilities are yet to be realized and this event may not occur for years.
A vCAD Replicator has basically two modes of operation. First their is the engineering mode in which one creates a virtual design of the desired object and uses the machine to manufacture both prototype and end product. This requires skill both in software operation and materials expertise and eventually their will be all types of help software. The second mode is actually simpler. It involves putting an existing object into the machine in which it scans such and software creates a virtual representation for you along with complete materials inventory. Then you can use the machine to create an exact and flawless replicate with almost as much ease as using a photo copying maching. Again this is a concept and a goal yet to be achieved.
Actually some of the critical technologies to bring a replicator online already exist in the general technological public, it is just nobody does much with them probably for the economic requirements of mass production. The most notable example of this is actually called an Electron Beam Lithograph because it works by using a stream of electricity. However this example of advanced technology is rather limited in capability in that it is only useful for manufacturing advanced semiconductors. This most advanced of semiconductors that is. The primary factor limiting the availability of this machine is no doubt its high price tag of well over $1,000,000.00.
However I take great interest in the technology of chip manufacturing and a new technology variant that I call a micro lithograph. I'm already well on my way to making my own version using a PC and vCAD software that I intend to use in the manufacture of pc boards and I want to develop my new logister digital switching device concept that I intend to use instead of the transistor in electronic devices such as my @on micro-processor concept. In my efforts toward this I have performed a series of experiments since the 1990's with pleasing results. I have designed and constructed both prototypes and vacuum shells for research purposes. Announcements can come at any time.
These include O3S (Object Oriented Operating System) and (virtual Computer Assisted Development) vCAD software systems and energy propagation research related to efficiency. vCAD software is actually a project I began in the 1990's and will continue as hardware requirements dictate. When it became clear that commercial software just couldn't make the grade and that O3S would be required, and a switch over inevitable, then I considered all of the retranslation work of software in C++ to G@ thus my priorities and development work has been affected. The developmental work of G@ and O3S are primary projects at this time.
One might ask how could I be doing so many different things related to technology and its genuine advancement? I have a unique work style. I divide my work into projects which can take from 2 days to 3 months usually to complete. Sometimes I have more than 1 project going at the same time and all usually have more than 1 end use. However biological related research is taking front and center more and more. For instance, the Pico Detector effect is something I stumbled onto some years ago and I set it aside until recently to work with several other such effects I'm aware of then I spent about a week perfecting it. This is a typical case for hardware technology for my work. The real time consumption is in software development which in either case is always certain.
I'm currently constructing applications for these technologies and will be able to report on these soon. The vCAD Replicator is a work in progress and still requires more developmental work and because of extreme complexity it may be years before significant effects upon industry and society occur. This and @on and G@ are intellectial properties of Mescitadel Think Tank.
A replicator by definition makes use of mass portation techniques to build up and mold geometric objects all under complete computer control in a specialized environment which is usually a vacuum. First and foremost a replicator requires the appropiate raw materials to work with. It also requires sophisticated computers and software and a proper power supply. It is a manufacturing technology whose full capabilities are yet to be realized and this event may not occur for years.
A vCAD Replicator has basically two modes of operation. First their is the engineering mode in which one creates a virtual design of the desired object and uses the machine to manufacture both prototype and end product. This requires skill both in software operation and materials expertise and eventually their will be all types of help software. The second mode is actually simpler. It involves putting an existing object into the machine in which it scans such and software creates a virtual representation for you along with complete materials inventory. Then you can use the machine to create an exact and flawless replicate with almost as much ease as using a photo copying maching. Again this is a concept and a goal yet to be achieved.
Actually some of the critical technologies to bring a replicator online already exist in the general technological public, it is just nobody does much with them probably for the economic requirements of mass production. The most notable example of this is actually called an Electron Beam Lithograph because it works by using a stream of electricity. However this example of advanced technology is rather limited in capability in that it is only useful for manufacturing advanced semiconductors. This most advanced of semiconductors that is. The primary factor limiting the availability of this machine is no doubt its high price tag of well over $1,000,000.00.
However I take great interest in the technology of chip manufacturing and a new technology variant that I call a micro lithograph. I'm already well on my way to making my own version using a PC and vCAD software that I intend to use in the manufacture of pc boards and I want to develop my new logister digital switching device concept that I intend to use instead of the transistor in electronic devices such as my @on micro-processor concept. In my efforts toward this I have performed a series of experiments since the 1990's with pleasing results. I have designed and constructed both prototypes and vacuum shells for research purposes. Announcements can come at any time.
These include O3S (Object Oriented Operating System) and (virtual Computer Assisted Development) vCAD software systems and energy propagation research related to efficiency. vCAD software is actually a project I began in the 1990's and will continue as hardware requirements dictate. When it became clear that commercial software just couldn't make the grade and that O3S would be required, and a switch over inevitable, then I considered all of the retranslation work of software in C++ to G@ thus my priorities and development work has been affected. The developmental work of G@ and O3S are primary projects at this time.
One might ask how could I be doing so many different things related to technology and its genuine advancement? I have a unique work style. I divide my work into projects which can take from 2 days to 3 months usually to complete. Sometimes I have more than 1 project going at the same time and all usually have more than 1 end use. However biological related research is taking front and center more and more. For instance, the Pico Detector effect is something I stumbled onto some years ago and I set it aside until recently to work with several other such effects I'm aware of then I spent about a week perfecting it. This is a typical case for hardware technology for my work. The real time consumption is in software development which in either case is always certain.
I'm currently constructing applications for these technologies and will be able to report on these soon. The vCAD Replicator is a work in progress and still requires more developmental work and because of extreme complexity it may be years before significant effects upon industry and society occur. This and @on and G@ are intellectial properties of Mescitadel Think Tank.
