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Thanks bud, added 330 to your count..
$RIGH Reverse Merger will be announced 2moro... this will fly...
$TOFS is connected with RIGH and might see a nice pop too....
$. . . . remains a secret for now...
Lead the way fisherman...
Ok C³ I will... GLTY & Good night.
I never knew these allegations and judgments existed until someone sent me the link this afternoon...
so next time I'll do more DD on Ihub before I post... lol
I'm still in my first year on IHUB, so I missed that party... but you seem to have pleasant memories from that...
You're welcome C³, this one certainly has the potential to be a big one although the big payday will come in the second half of '12, somewhere in Sept to be more precise. The POET Chip & technology based on GaAs, not Silicon, has all the right ingredients to change the landscape of the tech industry. It is superior in many ways and so as far we know of they will be the first to come out of R&D and be commercially viable in Sept 2012, or thereabouts... Its a long accumulation play with a high surging volume day/week in Q3+-, so load the dips and whistle all the way to the bank. We expect at least one good PR per quarter relating to POET, improved financials along the way, patent news & new contracts... OPL.V has a prudent management, they work with the biggest names, have superior products, a great technology, they have patents, are backed by insurances and financing methods, so in short this one is ready to make his move. One downside I have to mention is that they trade on the Venture exchange and since the economy deteriorated people pull their money out such ventures first... but on the other hand when there is blood on the streets...
GLTY & All GO $OPL.V
Chillax,... it will come... but on a Saturday, lol
GO $TOFS
Links & DD provided in the Air Force SBIR's
The first one listed:
Optoelectronic Ultra Low Power RAM
http://www.afsbirsttr.com/Include/Report/SummaryReport.aspx?pk=B87DCBB3-6910-4774-AE41-3EF24F72D4EC&type=TechMall
Summary of phase 1 (invited to phase 2)
POET also offers the advantage that the SA can deliver data optically from the chip by waveguide or vertically. This means that memory arrays may be coupled vertically. Therefore 3D high density memory is enabled.
I am starting to get the sense that ODIS has a huge amount of work for the number of people they have. Dr Taylor had mentioned at the AGM that they would have something to talk about with RAM in about 3 months. I suspect this got bumped by higher priority work. In the corporate presentation they mention the following.
BAE has world-class GaAsresearch facilities and has numerousPhD researchers working on the continued development of POET
Here is a repost to the Air Force contracts, some excellent detail links are available here. ie The summary’s to the work that has already been done and some of the achievements/advantages that have been realised. Very exiting stuff.
http://www.afsbirsttr.com/TechSearch/Default.aspx?kwa=odis
Updated Investors & Traders info: (scroll halfway thru)
http://investorshub.advfn.com/boards/board.aspx?board_id=21788
Updated Investors & Traders info: (scroll halfway thru)
http://investorshub.advfn.com/boards/board.aspx?board_id=21788
A great deal of the enterprise market is skipping (has skipped) 40Gbps, in favour of waiting for 100Gbps.
Even so, in the LAN the best we have right now in 802.ba ... it's really just 10 lanes of 10Gbps in parallel, and device backplanes (like the Cisco CRS3 or ASR9k) are getting stretched thin trying to cope with 100gig (heck the CRS1 was hobbled at 40gig per slot).
WAN- or carrier-side, the OEM roadmaps to watch are those of Alcatel-Lucent, Ciena, Huawei, and a bit unexpectedly, Brocade.
There might also be something worthwhile to look at in e.g. Finisar, since they're closer to the PHY.
But current plans don't really scale well: the expected 400Gbps links are really just 16 lanes of 25Gbps.
Parallelism is fine for bulk traffic, but there's not so much headroom for other traffic (video, etc).
I guess a comparison can be had with the way that serial HDD (SATA) have supplanted IDE (PATA).
Or, think of one Ferrari vs. 16 UPS trucks.
True 100Gbps and beyond should begin once IEEE802.3bj has seen the light of day ... updated drafts planned for next April, with ratification expected by early 2014.
When I look at the timelines in Pellegrino, the 2014-15 period is when things begin to get very rewarding ... and I don't think it's a coincidence.
GLTA,
PS:
Note as to the memory-module market, in some available configurations, the ASR9k has 4TB of RAM. Yes, 4 terabytes of flash memory.
Some techy background reading on the current state of 100Gbps:
http://lacnic.net/documentos/presentaciones/lacnicxiv/100GigabitEthernet-LACNOG.pdf
http://webmedia.company.ja.net/content/documents/shared/networkshop310309/boyle_roadto100gbpsopticalnetworking.pdf
A great deal of the enterprise market is skipping (has skipped) 40Gbps, in favour of waiting for 100Gbps.
Even so, in the LAN the best we have right now in 802.ba ... it's really just 10 lanes of 10Gbps in parallel, and device backplanes (like the Cisco CRS3 or ASR9k) are getting stretched thin trying to cope with 100gig (heck the CRS1 was hobbled at 40gig per slot).
WAN- or carrier-side, the OEM roadmaps to watch are those of Alcatel-Lucent, Ciena, Huawei, and a bit unexpectedly, Brocade.
There might also be something worthwhile to look at in e.g. Finisar, since they're closer to the PHY.
But current plans don't really scale well: the expected 400Gbps links are really just 16 lanes of 25Gbps.
Parallelism is fine for bulk traffic, but there's not so much headroom for other traffic (video, etc).
I guess a comparison can be had with the way that serial HDD (SATA) have supplanted IDE (PATA).
Or, think of one Ferrari vs. 16 UPS trucks.
True 100Gbps and beyond should begin once IEEE802.3bj has seen the light of day ... updated drafts planned for next April, with ratification expected by early 2014.
When I look at the timelines in Pellegrino, the 2014-15 period is when things begin to get very rewarding ... and I don't think it's a coincidence.
GLTA,
PS:
Note as to the memory-module market, in some available configurations, the ASR9k has 4TB of RAM. Yes, 4 terabytes of flash memory.
Some techy background reading on the current state of 100Gbps:
http://lacnic.net/documentos/presentaciones/lacnicxiv/100GigabitEthernet-LACNOG.pdf
http://webmedia.company.ja.net/content/documents/shared/networkshop310309/boyle_roadto100gbpsopticalnetworking.pdf
http://www.afsbirsttr.com/TechSearch/Default.aspx?kwa=odis
Enjoy!
PS click on the interim summaries for current phase I and II grants.
Some of the phase I summaries say "invited for Phase II"
I have been wondering why some of the old Phase ones have never graduated to phase two. I thought either they were unsuccessful or they simply didn't have time to work on them. After reading some of these descriptions I think they will address these "unfinished" projects in due course. In other words we might be hearing about Phase II grants ANYTIME!!!
Here's a nice statement for the switching fabric interim summary:
Anticipated Benefits
"The commercial market opportunity for optical switching fabrics could be significant if the POET optical switch becomes a serious contender for the electronic switching approach. This is expected to happen around 40GB/s data stream rates since the POET cHFET VLSI capability will dramatically outperform CMOS when the feature size gets to 0.1µm. However optical fabrics are only one aspect of one vertical market. There are numerous other vertical markets which POET will dominate and these include the wireless and handheld markets, semiconductor memory market, the server market and the general microprocessor markets to name a few. POET, with OE capability will then become a mainstream technology for all markets for data rates above 40GB/s"
http://www.afsbirsttr.com/TechSearch/Default.aspx?kwa=odis
Enjoy!
PS click on the interim summaries for current phase I and II grants.
Some of the phase I summaries say "invited for Phase II"
I have been wondering why some of the old Phase ones have never graduated to phase two. I thought either they were unsuccessful or they simply didn't have time to work on them. After reading some of these descriptions I think they will address these "unfinished" projects in due course. In other words we might be hearing about Phase II grants ANYTIME!!!
Here's a nice statement for the switching fabric interim summary:
Anticipated Benefits
"The commercial market opportunity for optical switching fabrics could be significant if the POET optical switch becomes a serious contender for the electronic switching approach. This is expected to happen around 40GB/s data stream rates since the POET cHFET VLSI capability will dramatically outperform CMOS when the feature size gets to 0.1µm. However optical fabrics are only one aspect of one vertical market. There are numerous other vertical markets which POET will dominate and these include the wireless and handheld markets, semiconductor memory market, the server market and the general microprocessor markets to name a few. POET, with OE capability will then become a mainstream technology for all markets for data rates above 40GB/s"
Very lame to call this stock (& TOFS) a scam. Its not because GNP? is a scam, and went bankrupt on one of its subsidiaries that everything around you is a scam too. In psychology we call that 'projection'... so get over it! And the word "scam" is so excessively over/mis-used that when a stock is in fact a scam people won't believe it anymore because they got immune to seeing it on almost every board...
GO $RIGH & GO $TOFS
https://ehb8.gsfc.nasa.gov/sbir/public/technologySearch/searchDetails.do?proposalId=SBIR_10_P1_104273&savedCenter=&savedRecordsPerPage=10&sort=R&savedMatchWord=any&searchText1=searchText&savedSearchText=odis&savedSort=R&taxOrder=Num&recordsPerPage=10&savedPhase=2¢er=&requestFrom=NASASBIRHome&savedTaxOrder=&firmOrder=Alph&program=&matchWord=any&savedFirmOrder=&action=paging&searchText=odis&savedProgram=&savedProgramYear=&programYear=&phase=1
https://ehb8.gsfc.nasa.gov/sbir/docs/public/recent_selections/SBIR_10_P1/SBIR_10_P1_104273/briefchart.pdf
NASA SBIR 2011 Program Solicitation
It is interesting to note that the ODIS SBIR - Optoelectronic Infrastructure for RF/Optical PhasedArrays is identified as phase 1. However Technical Readiness Level 5 is the exit level.TRL 5 is normally achieved in phase 2 contracts.When I look back at the proposal description it identifies that they started atTRL3 and will end at TRL5.
The program involving ODIS is Subtopic: O1.01 -Antenna Technology
http://sbir.nasa.gov/SBIR/sbirsttr2011/solicitation/SBIR/TOPIC_O1.html
NASA SBIR 2011 Program Solicitation
It is interesting to note that the ODIS SBIR - Optoelectronic Infrastructure for RF/Optical PhasedArrays is identified as phase 1. However Technical Readiness Level 5 is the exit level.TRL 5 is normally achieved in phase 2 contracts.When I look back at the proposal description it identifies that they started atTRL3 and will end at TRL5.
The program involving ODIS is Subtopic: O1.01 -Antenna Technology
http://sbir.nasa.gov/SBIR/sbirsttr2011/solicitation/SBIR/TOPIC_O1.html
Good spotting TT, you got that right, OPL has lots of potential, but unfortunately not many see it that way yet, but on the other hand is that a bad thing? I mean we can load up cheapies for a while and then within a few months OPL will get noticed and the share price will easy double from here, and it wouldn't surprise me that we went to 1.5$ +- from now until April... Q4 will be good, we know that already, and they just appointed a new sales person for North America so I expect him to come "home" with a few good contracts under his belt... Then we have the evolutionary POET process, which will bring us at least one good PR every quarter up until Sept. 2012... So yes, lots of potential.
The big downside right now, is that many countries will cut back on their feed-in-tariffs etc, especially with the current cutbacks in spending... and lets hope Obama says in office because those pesky conservatives will shut down the solar program so they can drill again! That could be the 2 main reasons of why it is trading so low, because of uncertainty, though the financials show better results then the share price reflects...
Whats the thing investors/traders like to say in such moment?? "Time to load the boat my friend", fill the saddle bags and give 'm to the good folks coming in when its much higher and more known...
GLTY TT & GO $OPL.V
HP and Alcatel-Lucent announce joint solution
Telecomworldwire-December2, 2011-HP and Alcatel-Lucent announce joint solution (C)1994-2011 M2 COMMUNICATIONS http://www.m2.com Technology company HP (NYSE:HPQ) and mobile, fixed, IP and optics technologies provider Alcatel-Lucent (Euronext Paris:ALU) (NYSE:ALU) announced on Thursday a jointly developed solution to help organisations move, store and access information by integrating data centre infrastructure technology and high-performance communications networks. The companies said that their new Data Center Network Connect (DCNC) is an integrated architecture that combines data centre technology with high-performance communications networks to offer enterprises the same levels of reliability, speed and capacity that are available on telecoms service provider networks, at lower cost. DCNC combines HP's technologies and services for data centres with Alcatel-Lucent's optical transport solutions for service providers and its service routing and switching portfolio, which are key elements of the Alcatel-Lucent High Leverage Network (HLN) architecture. It will also utilise Alcatel-Lucent's CloudBand solution, which offers large enterprises and governments access to the cloud with the quality of service their activities require. Client benefits include: increased network performance with faster, more reliable throughput; improved time to market through an integrated hardware, software and services solution; enhanced flexibility and agility; and reduced total cost of ownership. HP and Alcatel-Lucent Data Center Network Connect consists of existing products and product-attached services from HP and Alcatel-Lucent that are available globally now. The services are currently available in selected locations with expected global and consolidated availability by the end of 2011. No pricing details were announced. ((Comments on this story may be sent to tww.feedback@m2.com))
Source: M2 Presswire (December 2, 2011 - 11:50 AM EST)
News by QuoteMedia
www.quotemedia.com
This kinda reminds me of 'someone' who said he had a plan behind his negative rhetoric and sentiment on the board, does that makes you sick too?!
$RIGH is getting much attention right, with the RM being imminent lots of peeps on the sidelines ready to jump in for a nice run...
Phase I Project Summary
Firm: ODIS, Inc
Contract Number: SBIR 2010-I NNX11CD96P
Project Title: Optoelectronic Infrastructure for RF/Optical Phased Arrays
Identification and Significance of Innovation:
The problem addressed is the next generation of device integration for ultra high bandwidth and optoelectronic capability. POET (Planar Optoelectronic Technology) is the innovative solution. It is a monolithic circuit based on epitaxial growth in GaAs. Currently at 1µm wavelength based on quantum wells, it has the potential to operate out to 1.5µm based on quantum dot growth. POET is the only technology to offer high performance complementary electronics monolithically combined with all optoelectronic functions, which include waveguide based operation of lasers, detectors, modulators, amplifiers, switches and interferometers . It also implements vertical cavity operation of the OE devices simultaneously with the waveguide interconnect. The significance of POET is to displace Si CMOS and thus become the new foundation of the integrated and OE circuit industry. POET addresses many system requirements of future NASA missions. The RF/Optical phased array is the application chosen to define POET capabilities. Operating in Ka band, these arrays launch RF and optical power. POET enables a single chip to define the aperture for both signal types. POET enables RF beam control using optical waveguide signals for beam steering. It also uses vertical cavity arrays on the same chip for directional control of the optical beam.
Technical Objectives and Work Plan:
The overall technical objective was to advance the TRL level of POET such that design issues could be seriously considered. To give more focus, the application of the common aperture for the RF and optical arrays at Ka band was chosen as a challenging prospect to benefit from the integration of optical and electronic devices. The specific objectives pertaining to the common aperture problem are to determine how optical signals could provide power distribution and beam steering for the RF mode of operation and how the POET device functionality could be adapted through innovation to address these requirements. Simultaneously within the same fabrication an objective was to determine how the POET device family could implement and sustain an optical laser beam. The quality and optical flux density of the beam were of great interest since the planar topology may allow coherent operation for the first time by achieving the high brightness associated with supermodes. Another objective was to devise a mechanism to steer the laser beam with electrical signals alone which is only possible with a coherent array achieved with small inter-laser spacing. The work plan consisted of modeling, architecture definition, and POET development through growth and fabrication.
Technical Accomplishments:
During the Phase I effort, an implementation of a RF phased array was developed based upon the routing of optical signals in a POET integrated circuit. The RF power is transported as the modulation on an optical carrier and is converted to RF by detection in a traveling wave (TW) photodiode at the antenna. The antenna feed line is designed as the terminating resistance for the detector. To achieve beam steering by true time delay a new micro-resonator structure is developed that enables field effect control of the waveguide coupling parameter and therefore the differential group delay(DGD). A series feed structure is devised that uses waveguide delay combined with DGD to achieve the correct timing for each transmit cell in both x and y directions. The optical beam is created with a 2D VCSEL array in POET with coupling by anti-guiding to achieve a coherent output. Steering is achieved through control of the local VCSEL drive current. Photomasks were developed to implement the micro-resonator controlled delay, the resonant modulator, the TW detector, the VCSELs and the transistors. Transfer of POET to a DoD manufacturing line continued and transistor speeds (1µm device) of 38.6FGz has been obtained on the first wafers
NASA Application(s):
NASA applications benefiting from POET integrated circuits are found in all current electronic and optical systems. The RF/optical phased array was addressed here. In addition, POET circuits can be used to implement photonic ADC and DAC circuits involved in the transmit and receive functions for all radar and imaging systems. Lasercom is another application where POET offers power efficient and high speed transceivers. Internal to the satellite, POET implements all-optical packet switching , OE routing functions and digital processing all with reduced power and higher speed. POET also performs VIS-NIR-SWIR-MWIR-LWIR imaging without the cooling requirement and with integrated readout circuits.
Non-NASA Commercial Application(s):
POET is a generalized integrated circuit platform that supports optoelectronics. The commercial market areas identified are 1) the general wireless market where POET will enable a single chip to combine all of the hand held functions, 2)the microprocessor market which targets the desk top and the blade server functions, and 3)the imaging market including visible and IR which will encompass the camera market for hand-helds. There are many other vertically integrated markets as well such as the laser array market for laser pumps , industrial cutting and medical analysis. A year ago ODIS contracted a market analysis to be performed of the POET value based on existing IP. Based on the IP alone, a value of »$1B was reached considering exclusively the three markets identified. If ODIS were to raise additional funds to tackle one of these markets the company value would rise accordingly.
Name and Address of Principal Investigator: (Name, Organization, Street, City, State, Zip)
Geoff W. Taylor
54 Ahern Rd.
Mansfield, CT. , 06269
Name and Address of Offeror: (Firm, Street, City, State, Zip)
ODIS, Inc.
3 Corporate Drive, Suite 204
Shelton, CT. 0648
Phase I Project Summary
Firm: ODIS, Inc
Contract Number: SBIR 2010-I NNX11CD96P
Project Title: Optoelectronic Infrastructure for RF/Optical Phased Arrays
Identification and Significance of Innovation:
The problem addressed is the next generation of device integration for ultra high bandwidth and optoelectronic capability. POET (Planar Optoelectronic Technology) is the innovative solution. It is a monolithic circuit based on epitaxial growth in GaAs. Currently at 1µm wavelength based on quantum wells, it has the potential to operate out to 1.5µm based on quantum dot growth. POET is the only technology to offer high performance complementary electronics monolithically combined with all optoelectronic functions, which include waveguide based operation of lasers, detectors, modulators, amplifiers, switches and interferometers . It also implements vertical cavity operation of the OE devices simultaneously with the waveguide interconnect. The significance of POET is to displace Si CMOS and thus become the new foundation of the integrated and OE circuit industry. POET addresses many system requirements of future NASA missions. The RF/Optical phased array is the application chosen to define POET capabilities. Operating in Ka band, these arrays launch RF and optical power. POET enables a single chip to define the aperture for both signal types. POET enables RF beam control using optical waveguide signals for beam steering. It also uses vertical cavity arrays on the same chip for directional control of the optical beam.
Technical Objectives and Work Plan:
The overall technical objective was to advance the TRL level of POET such that design issues could be seriously considered. To give more focus, the application of the common aperture for the RF and optical arrays at Ka band was chosen as a challenging prospect to benefit from the integration of optical and electronic devices. The specific objectives pertaining to the common aperture problem are to determine how optical signals could provide power distribution and beam steering for the RF mode of operation and how the POET device functionality could be adapted through innovation to address these requirements. Simultaneously within the same fabrication an objective was to determine how the POET device family could implement and sustain an optical laser beam. The quality and optical flux density of the beam were of great interest since the planar topology may allow coherent operation for the first time by achieving the high brightness associated with supermodes. Another objective was to devise a mechanism to steer the laser beam with electrical signals alone which is only possible with a coherent array achieved with small inter-laser spacing. The work plan consisted of modeling, architecture definition, and POET development through growth and fabrication.
Technical Accomplishments:
During the Phase I effort, an implementation of a RF phased array was developed based upon the routing of optical signals in a POET integrated circuit. The RF power is transported as the modulation on an optical carrier and is converted to RF by detection in a traveling wave (TW) photodiode at the antenna. The antenna feed line is designed as the terminating resistance for the detector. To achieve beam steering by true time delay a new micro-resonator structure is developed that enables field effect control of the waveguide coupling parameter and therefore the differential group delay(DGD). A series feed structure is devised that uses waveguide delay combined with DGD to achieve the correct timing for each transmit cell in both x and y directions. The optical beam is created with a 2D VCSEL array in POET with coupling by anti-guiding to achieve a coherent output. Steering is achieved through control of the local VCSEL drive current. Photomasks were developed to implement the micro-resonator controlled delay, the resonant modulator, the TW detector, the VCSELs and the transistors. Transfer of POET to a DoD manufacturing line continued and transistor speeds (1µm device) of 38.6FGz has been obtained on the first wafers
NASA Application(s):
NASA applications benefiting from POET integrated circuits are found in all current electronic and optical systems. The RF/optical phased array was addressed here. In addition, POET circuits can be used to implement photonic ADC and DAC circuits involved in the transmit and receive functions for all radar and imaging systems. Lasercom is another application where POET offers power efficient and high speed transceivers. Internal to the satellite, POET implements all-optical packet switching , OE routing functions and digital processing all with reduced power and higher speed. POET also performs VIS-NIR-SWIR-MWIR-LWIR imaging without the cooling requirement and with integrated readout circuits.
Non-NASA Commercial Application(s):
POET is a generalized integrated circuit platform that supports optoelectronics. The commercial market areas identified are 1) the general wireless market where POET will enable a single chip to combine all of the hand held functions, 2)the microprocessor market which targets the desk top and the blade server functions, and 3)the imaging market including visible and IR which will encompass the camera market for hand-helds. There are many other vertically integrated markets as well such as the laser array market for laser pumps , industrial cutting and medical analysis. A year ago ODIS contracted a market analysis to be performed of the POET value based on existing IP. Based on the IP alone, a value of »$1B was reached considering exclusively the three markets identified. If ODIS were to raise additional funds to tackle one of these markets the company value would rise accordingly.
Name and Address of Principal Investigator: (Name, Organization, Street, City, State, Zip)
Geoff W. Taylor
54 Ahern Rd.
Mansfield, CT. , 06269
Name and Address of Offeror: (Firm, Street, City, State, Zip)
ODIS, Inc.
3 Corporate Drive, Suite 204
Shelton, CT. 0648
There is more to it then that!
So don't shoot any holes in what you can't see...
What do you think bud? Sentiment on the $TOFS Board, as well as many indicators are turning around... it was a long wait but its finally happening, might be good for a gamble, 33 to 100% is easy attainable, especially when the $RIGH merger is announced TOFS will see a pop, and the higher RIGH goes the better TOFS... Its a dual play & RIGH is getting lots of attention right now with so much volume (207,089,411). They are intertwined because TOFS hold convertible equity in RIGH, so the higher this one goes the more profit for TOFS...
They match nice together (if you don't date 'm too long, lol) Kinda reminds me of those twins I used to know... GLTA
Sentiment on the $TOFS Board, as well as many indicators are turning around... it was a long wait but its finally happening, might be good for a gamble, 33 to 100% is easy attainable, especially when the $RIGH merger is announced TOFS will see a pop, and the higher RIGH goes the better TOFS... Its a dual play & RIGH is getting lots of attention right now with so much volume (207,089,411). They are intertwined because TOFS hold convertible equity in RIGH, so the higher this one goes the more profit for TOFS...
They match nice together (if you don't date 'm too long, lol) Kinda reminds me of those twins I used to know... GLTA
In case anyone was wondering who the second military contractor is that OPEL is working with, it is Boeing Aerospace as per slide 4of the UCONN presentation, at time 13:15 of the video clip. Interestingly Boeing Aerospace is named first then BAE Systems as the two military contractors..
http://mediasite.uchc.edu/Mediasite41/SilverlightPlayer/Default.aspx?peid=da0fe5989c334cbab153a059e257ac44
BAE Systems Inc. (formerly BAE Systems North America) is a major subsidiary of the British defense and aerospace company BAE Systems plc. As per its Special Security Agreement, BAE Systems Inc. operates as a semi-autonomous business unit within BAE Systems controlled at a local level by American management. More at...
http://en.wikipedia.org/wiki/BAE_Systems_Inc.
In case anyone was wondering who the second military contractor is that OPEL is working with, it is Boeing Aerospace as per slide 4of the UCONN presentation, at time 13:15 of the video clip. Interestingly Boeing Aerospace is named first then BAE Systems as the two military contractors..
http://mediasite.uchc.edu/Mediasite41/SilverlightPlayer/Default.aspx?peid=da0fe5989c334cbab153a059e257ac44
BAE Systems Inc. (formerly BAE Systems North America) is a major subsidiary of the British defense and aerospace company BAE Systems plc. As per its Special Security Agreement, BAE Systems Inc. operates as a semi-autonomous business unit within BAE Systems controlled at a local level by American management. More at...
http://en.wikipedia.org/wiki/BAE_Systems_Inc.
This detail did not get the attention it deserved. Producing a vertical emitting laser means the ability to layer POET in the photonic domain. In other words 3d technology in photonics which will far exceed anything that exists in terms of the performanceboost of 3d electronic circuits. Agreed. It might ultimately be that IBM would construct something similar to what's in the article but enhancing it with POET's optical capabilities thus scaling their own technology with the help of ours. Just to lend some support to this idea, I recall that at the AGM we asked about Intel's "Tri-Gate" technology (3D-transistors/FINFET) which was getting some hype at the time. After laughing out loud and correctly calling it "11-year old technology", mangement put our mind further at ease by suggesting that POET could also be used to build chips using FINFET.
I don't know why we would since even the first, rudimentary chips will increase clock speed up to 100GHZ anyway. Why pay Intel a royalty to make it faster? This just highlights the extreme scalability of POET going forward. A few of us also inquired about graphene as a material for ICs and he said the big benefit of POET is compatibility with current technology. So from that I understand that POET can be phased into current technology and then scaled up to gradually eliminate unnecessary/redundant on-chip and chip-to-chip connnections.
This detail did not get the attention it deserved. Producing a vertical emitting laser means theability to layer POET in the photonic domain. In other words 3d technology inphotonics which will far exceed anything that exists in terms of the performanceboost of 3d electronic circuits. "
Agreed. It might ultimately be that IBM would construct something similar to what's in the article but enhancing it with POET's optical capabilities thus scaling their own technology with the help of ours.
Just to lend some support to this idea, I recall that at the AGM we asked about Intel's "Tri-Gate" technology (3D-transistors/FINFET) which was getting some hype at the time. After laughing out loud and correctly calling it "11-year old technology", mangement put our mind further at ease by suggesting that POET could also be used to build chips using FINFET.
I don't know why we would since even the first, rudimentary chips will increase clock speed up to 100GHZ anyway. Why pay Intel a royalty to make it faster? This just highlights the extreme scalability of POET going forward.
A few of us also inquired about graphene as a material for ICs and he said the big benefit of POET is compatibility with current technology. So from that I understand that POET can be phased into current technology and then scaled up to gradually eliminate unnecessary/redundant on-chip and chip-to-chip connnections.
Had mijne ook op 4 en de deur uit op 6.
Maar ik check net het RIGH bord en Clay Trader heeft er net z'n video chart geplaatst:
http://investorshub.advfn.com/boards/read_msg.aspx?message_id=69517158
En iedere keer ik die kerel zie komen met z'n charts zie je de dag erop een sell-off, tops 2 dagen daarna! Dat is me nu al 5 keer opgevallen en iedere keer was 't bingo. Die gasten zijn verwant aan een penny website and zij kopen massaal in maar dumpen ook tegelijk... 't Zou me sterk verbazen als 't deze keer anders zou zijn... wait & see...
Ja, da's 'n goeie... kan daar niets met zekerheid over zeggen.
Maar ik zou niet te gretig zijn en wat winst van de tafel halen morgen want de kans zit er toch dik in dat ze gaan verkopen voor 't weekend... Ideaal om cheapies op te vangen morgen
Goeie keuze, RIGH doet het goed!
Already did, maybe too soon, green is green... but you don't see me saying FUD related stuff while sitting at the bid...
What a devious way to provoke selling bro!!
Too bad you missed the boat, or sold to soon, but no need to play dirty tricks... Get the picture?!