HA could also mean hardware redundancy. Most homebuilt computers now have motherboards that supports built in RAID-5 support. It's an easy way to provide not just database HA, but system stability as well.
Just string a couple of SATA-II drives together and activate RAID support on a motherboard like LanParty from DFI.
RAID-5 is more robust and has higher survival rate in case of hard-drive failures.
i.e. Vical has already been contracted by the US government to run trials of DNA vaccines.
So, do your part, help the government out as well and invest in companies that are working towards a solution.
Follow the ultimate geek, Bill Gates, in his example. Money talks!!!! He's trying to stamp out malaria. What's your favorite bug that needs squashing????
"Photon Bounce -- Breaking the laws of physics, but not that of probability & statistic,"
by, 'Photon Vu'
(This entire article copyrighted 9/14th/2005 by Mr. Photon Vu ).
This application for patent is applied for by Mr. Photon Vu, dated September 14th, 2005 (11pm, Indianapolis Time, EST) for the design and use of the Photon Bounce and for the design and use of the uniformly distributed electron cloud whose statistical probability is at 0.5 throughout the layer and whose thickness is defined to be width of one electron whose statistical probability is at 0.5.
[Begin of target description of patent concept]
Patent is for the configuration and use of photon per the non-classical physic bounce to accomplish simultaneous computation via a statistical presence of data formed beneath an electron cloud with statistically uniform region whose probability is of 0.5 to achieve consolidated probability of 1.0 which designates simultaneously solved solutions and consolidated probability of 0.0 which designates unsolved solutions ( which represents region of theoretically-proven unsolvable problems as posed by the data that parameterize the simultaneous equations to be solved ). Details of this configuration are described below from item 1 through item 4:
Item 1. Photon have no mass, thus can not cause a physical deflection in physical media, so the phenomenon being used is a statistical bounce in which a photon whose statistical probability is at 1.0 is directed at a region whose statistical probability is uniformly distributed throughout and whose statistical probability is at 0.5 .
Item 2. A 'bounce' is defined as the statistical influence of the photon whose statistical probability is 1.0 on the region whose statistical probability is at 0.5 such that when there is a presence of a data point, representing one of the parameter of the simultaneous equation to be solved, all simultaneous computation occur for all data points represented in the computational region, formed by the evenly distributed layer of electrons whose probability was stable at 0.5 at the moment prior to the impact of the photon against it.
Item 3. Multiple photons whose statistical probability of 1.0 can be used simultaneously against the uniform layer of electrons whose statistical probability is at 0.5 through the layer, with the requirement that not more than one photon can occupy the same space/time within the uniform layer of electrons.
Item 4. Data points are represented by beams of photons of varying energy levels (frequencies) directed at the electron cloud.
[End of target description of patent concept]
Page 1 of 1 and only 1 page, final.
BTW3. the key is not in the document above. It's something that every little kid already know, 'things that glow in the dark'.
a.k.a (read below) [ i prefer the kid's version and wording;))))) ]
Energy levels in stable electron clouds are at specific energy 'rungs' which dance with bypassing photons. That's classical physics. In non-classical physics, the electron is a statistical entity whose distribution goes to infinity in space/time. However, even photons have statistical significance, of 1.0. So, when a photon that exist in physical space as a quanta hits an electron (which is really a statistical entity) it converts onto a wavelet, a statistical distribution that we can control. Thus, the statistical significance of an electron whose energy level is quantized already; and thus, a statistically significant computation event occur (not a physical event). Data of a simultaneous equations can be parameterized by electrons that are 'pumped' to a specific set of rungs ( yet again by photons, prior to the computation event ). If you layer this data set with a layer of electrons whose statistical probability is at 0.5 and whose thickness is exactly 1 electron (whose statistical probability is 0.5), you get a region of time/space that can convert the bounce of photons above it into an instantaneous computing event of all simultaneous equations, using the presence of the electron
Slashdot Mirror
HA could also mean hardware redundancy.
Most homebuilt computers now have motherboards that supports
built in RAID-5 support. It's an easy way to provide not just
database HA, but system stability as well.
Just string a couple of SATA-II drives together and activate
RAID support on a motherboard like LanParty from DFI.
RAID-5 is more robust and has higher survival rate in case of
hard-drive failures.
Man, it scares me when a research website has a topic as shown:
i on=18&Page=67
"Research & Analysis Programs - Lethality "
http://www.arl.army.mil/main/Main/default.cfm?Act
what a lovely story, just in time for Christmas!
Dude, you're the best! Thanks for the article/pdf file.
You can move the situation along by investing in a company that might have a solution:/ 10/news/special/2a6faf69b9cd57ee872570ac005c05b8.t xt
http://www.casperstartribune.net/articles/2005/11
i.e. Vical has already been contracted by the US government to run trials of DNA vaccines.
So, do your part, help the government out as well and invest in companies that are working towards a solution.
Follow the ultimate geek, Bill Gates, in his example. Money talks!!!!
He's trying to stamp out malaria. What's your favorite bug that needs squashing????
It was meant to be a joke, not to be read, but to be skimmed for humor. If you actually read it, it's just garbage. ;)
Have a nice day.
"Photon Bounce -- Breaking the laws of physics, but not that of probability & statistic," by, 'Photon Vu' (This entire article copyrighted 9/14th/2005 by Mr. Photon Vu ). This application for patent is applied for by Mr. Photon Vu, dated September 14th, 2005 (11pm, Indianapolis Time, EST) for the design and use of the Photon Bounce and for the design and use of the uniformly distributed electron cloud whose statistical probability is at 0.5 throughout the layer and whose thickness is defined to be width of one electron whose statistical probability is at 0.5. [Begin of target description of patent concept] Patent is for the configuration and use of photon per the non-classical physic bounce to accomplish simultaneous computation via a statistical presence of data formed beneath an electron cloud with statistically uniform region whose probability is of 0.5 to achieve consolidated probability of 1.0 which designates simultaneously solved solutions and consolidated probability of 0.0 which designates unsolved solutions ( which represents region of theoretically-proven unsolvable problems as posed by the data that parameterize the simultaneous equations to be solved ). Details of this configuration are described below from item 1 through item 4: Item 1. Photon have no mass, thus can not cause a physical deflection in physical media, so the phenomenon being used is a statistical bounce in which a photon whose statistical probability is at 1.0 is directed at a region whose statistical probability is uniformly distributed throughout and whose statistical probability is at 0.5 . Item 2. A 'bounce' is defined as the statistical influence of the photon whose statistical probability is 1.0 on the region whose statistical probability is at 0.5 such that when there is a presence of a data point, representing one of the parameter of the simultaneous equation to be solved, all simultaneous computation occur for all data points represented in the computational region, formed by the evenly distributed layer of electrons whose probability was stable at 0.5 at the moment prior to the impact of the photon against it. Item 3. Multiple photons whose statistical probability of 1.0 can be used simultaneously against the uniform layer of electrons whose statistical probability is at 0.5 through the layer, with the requirement that not more than one photon can occupy the same space/time within the uniform layer of electrons. Item 4. Data points are represented by beams of photons of varying energy levels (frequencies) directed at the electron cloud. [End of target description of patent concept] Page 1 of 1 and only 1 page, final. BTW3. the key is not in the document above. It's something that every little kid already know, 'things that glow in the dark'. a.k.a (read below) [ i prefer the kid's version and wording ;))))) ]
Energy levels in stable electron clouds are at specific energy 'rungs' which dance with bypassing photons. That's classical physics. In non-classical physics, the electron is a statistical entity whose distribution goes to infinity in space/time. However, even photons have statistical significance, of 1.0. So, when a photon that exist in physical space as a quanta hits an electron (which is really a statistical entity) it converts onto a wavelet, a statistical distribution that we can control. Thus, the statistical significance of an electron whose energy level is quantized already; and thus, a statistically significant computation event occur (not a physical event). Data of a simultaneous equations can be parameterized by electrons that are 'pumped' to a specific set of rungs ( yet again by photons, prior to the computation event ). If you layer this data set with a layer of electrons whose statistical probability is at 0.5 and whose thickness is exactly 1 electron (whose statistical probability is 0.5), you get a region of time/space that can convert the bounce of photons above it into an instantaneous computing event of all simultaneous equations, using the presence of the electron