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Must be shorts ! Oh well... Must feel good walking into weekend in $3 range. You seem happy enough ..lmao.... I'll attend asm fully naked if there's any deals announced before then .. nevermind a tier one!!! If you guys actually still believe the shite that's spewed by lebby and longs on here then you need sectioning .... Fruit bats!
Yes @vein please tie your hands and get a Dog Muzzle, is better for everyone
shit-rat-fraud-bullcrap
I rest my case
20 never happened that was a blink of the eye Shorts keep wanting to hang their hats on that and it is TOTAL BULLSHIT here's the TRUTH in the VWAPS!!!!
Here's the FACTS on LWLG trading, the VWAPS don't lie like the Shorts
As plainly told in the table below VWAP's range for $4 to $8 <<<TRUTH BOMB!!!!!!!
Historical LWLG Price Data
______Period Open High Low VWAP Avg. Daily Vol Change %
1 Week__ 4.12 4.28 3.87 4.05 655,818 -0.02 -0.49%
1 Month 4.28 4.82 3.87 4.29 633,551 -0.18 -4.21%
3 Months 4.44 5.295 3.87 4.35 588,605 -0.34 -7.66%
6 Months 4.79 5.69 3.79 4.52 638,262 -0.69 -14.41%
1 Year__ 4.79 9.18 3.79 5.49 686,220 -0.69 -14.41%
3 Years 11.88 20.30 3.79 8.02 835,056 -7.78 -65.49%
5 Years 11.88 20.30 3.79 8.02 835,056 -7.78 -65.49%
Finally !!! The missing joker of the day !!!
And busy day for you ? Copy paste, copy paste …
Dont understand you are still allowed here ??
#thejoker
So your saying going from 20 to 3.96 is just market manipulation. If Lebby would follow through on his press releases/ goals and timelines we wouldn't be in this position. Of course its never falls on him. When we were running to 20 everyone thanked and praised Lebby for his hard work but the downfall to 3.96 is not on him?? Can't have it both ways.
Who cares, Proto. “BS manipulation” is possible ONLY because LWLG is a zero revenue, cash burn, machine, which, after 20 years as a public for-profit company, can’t even give revenue guidance.
The problem is LWLG, not “manipulators,” “shorts,” or “algorithms.”
Stop blaming the result, and start blaming the cause.
First, listen to what Lebby said at Wainright here,
in fact, we are enabling network equipment upgrades without changing the network. You don't have to change the fiber, you don't have to change the equipment. You just put our technology, which is like putting a V8 into a four-cylinder car, and you put it into those little boxes. I don't know if there's a point that works here. And those boxes all fit into the network switches and routers, and that upgrades the equipment without changing the equipment, which is really powerful.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=172839745
KCC posted this on Reddit
Weekend Hangout - Friday, April 19, 2024 by s2upid in LWLG
[–]KCCO7913 2 points 23 minutes ago
What I’m hearing from people that attended yesterdays meeting is that the transceiver partner is a giant company that is dedicating a lot of their own resources to LWLG’s development. It’s just a matter of time before the relationship is made public.
Herwig posted this on IHUB
ML indicated that he does not want to work with many small deals that can be quickly closed.
He immediately wants to go for the really big boys, but with those big boys such implementation takes much longer because the contracts are more complex.
In any case, it was clear that LWLG is sitting at the table with heavyweights.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174272533
Herwig also posted this slide showing all the massive Tier 1 interest
https://investorshub.advfn.com/uimage/uploads/2024/4/19/dm[bdIMG_5213.JPG
and Spekkie posted this on IHUB
He just finished. Important take away we are working with multiple tier ones, tripled since a few weeks after OFC , wow we are golden. He showed a slide of the “ eyes” will be on the site as well. This was a real promising speech! Reliability is NOT an issue! Look at the eyes!
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174270982
Lebby already told investors who the Customers would be!! here
with Cisco, Intel, Google, Ciena as LWLG Customers I wouldn't want to be stuck holding the Old Maid "Short" card when Lebby drops additional Licensing and Tech Transfer Agreements in 2024!!
there are 22 Million++ Shorts holding that Old Maid card currently!!
TWST: Do you see your ideal customers like Cisco or whoever makes these particular modulation devices? Are they the ones who are going to buy?
Dr. Lebby: Yes, they will — a lot of these larger companies. The Ciscos of this world as well as the Intels and the Cienas, these types of players, Googles and others. A lot of these folks are actually vertically integrated. So they actually do a lot of the things themselves. And some of the parts they send out to foundries or to contract manufacturers.
https://www.reddit.com/r/LWLG/comments/15twmqr/interview_with_dr_lebby_august_17_2023/
Folks, these are pretty bold statements by Lebby, and Lebby is one of the top Luminaries of the photonics Industry, personally I would NOT want to bet against him!!!
Short Playbook has run out of pages, every Short argument has FAILED miserably, from calling LWLG vaporware to saying it can never be done, it's failed science experiment, it can't be poled, then well except maybe one at a time, then well they'll never be able scale it in a small Foundry, then they'll never be able scale it in a BIG Foundry
ALL THESE ARGUMENTS WERE PURE BULLSHIT!!! And Shorts hired paid bashers galore!!!
But now Lebby commands the driver seat and he's working the largest companies on God's green earth!!! What caused the shift to ONLY pursuing the giant companies? investors already learned the answer to that from the LD Micro interview of what transpired in the first couple months of 2024, that being success at several large Foundries on 200mm Wafers perfect for MASS COMMERCIALIZATION of the Google, Cisco, Ciena etc companies, here
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174203972
HERE ARE MY OBSERVATIONS FROM TODAY'S TRADING....
1) PATHETIC!!!!!!!!!!!!!!!!
2) CULT!!!!!!!!!!!!!!!!!!!!!!!!
3) GRIFTER!!!!!!!!!!!!!!!!!!
4) NO REVENUE, NO DEALS, NO PARTNERSHIPS
5) PROTOPUMPER/PROTOPUPPET
6) XENAKNOWSNOTHING
7) DISCOUNTEDSHARESX
8) RKFMORON
9) BLAH, BLAH, BLAH, BLAH, BLAH
10) CARROT DANGLER
SCOREBOARD...$3.96
and there it is TOTAL BS DUNK from 4.03 to 3.96 on about 5K shares!!! TOTAL BS MANIPULATION just like everyday!!!
Lightwave Logic was instrumental in two chapters of the IPSR-I, serving as co-chair of the "Transceivers" chapter and chair of the "Polymers" chapter. The company also contributed to the "Interconnects" chapter.
This is HUGELY important!!! Why would Lebby being CHAIR of the TRANSCEIVERS section of the Roadmap, for the last handful of years Lebby was only writing the Polymers section!!! It is OBVIOUS that Lebby is now CHAIR of the Transceivers section because LWLG is going to become the UBIQUITOUS heart of Next-Gen internet transmissions!!!
from the IPSR, “TECHNOLOGY FORECAST OF ELECTRO-OPTIC POLYMERS
In the field of active electro-optic polymers, there has been significant technological and commercial progress. There are now commercial companies that are supplying active electro-optic polymer material as well as commercial companies supplying silicon slot and plasmonic slot modulator devices, and devices embedded into photonic integrated circuit (PIC) platforms.”
Yes, indeed investors are learning that LWLG and Lebby are now involved with more than just the Polymer Modulators they can now mass produce their 4x200 devices on 200mm Wafers in several large Foundries!!!
Lightwave Logic Demonstrates Thought Leadership with Critical Contributions to Global Integrated Photonics Industry Roadmap
8:31 am ET April 16, 2024 (PR Newswire)
Integrated Photonics System Roadmap Defines and Creates Future PIC Technology and Systems Requirements for Industry that Span out to 2040
Lightwave Logic, Inc. (NASDAQ: LWLG), a technology platform company leveraging its proprietary electro-optic (EO) polymers to transmit data at higher speeds with less power in a small form factor, substantially contributed to the recently published "Integrated Photonics System Roadmap - International" (IPSR-I) to accelerate the high-volume commercial manufacturing of high-value integrated photonics over the next decade and beyond.
Led by foundation PhotonDelta and the Microphotonics Center at the Massachusetts Institute of Technology (MIT), the IPSR-I is based on the highly influential semiconductor industry roadmap that outlined research priorities and has enabled the semiconductor industry to navigate Moore's Law for integrated photonics. These non-competitive industry roadmaps also serve stakeholders, investors and research analysts as a resource for industry trends, research, and commercial opportunities.
More than 400 technology, academic and industrial organizations from around the world contributed to IPSR-I. The IPSR-I describes a route toward building a global, aligned integrated photonics industry with the ability to help solve major societal challenges. It includes a comprehensive overview of major technology gaps for volume manufacturing of photonic integrated circuits (PIC) and a detailed analysis of the challenges that the integrated photonics industry needs to overcome to achieve its potential.
Lightwave Logic was instrumental in two chapters of the IPSR-I, serving as co-chair of the "Transceivers" chapter and chair of the "Polymers" chapter. The company also contributed to the "Interconnects" chapter. 'Transceivers' are a critical commercial pluggable optical engine, for example in hyperscaler datacenters, telelcom networks, and high-performance computing. 'Interconnects' focuses on optical fiber links that connect pluggable optical transceivers together for routers, switches, computational systems etc. 'Polymers' focuses on active electro-optic polymers for optical modulators as well as passive polymers that guide and manipulate light in fiber optic communications markets.
"We were privileged to be invited to contribute to the updated IPSR-I to establish and sustain a trust based global network of industrial and R&D partners, working together to create PIC technology and systems requirements," said Dr. Michael Lebby, Chairman and Chief Executive Officer of Lightwave Logic. "These requirements comprise the commercial factors that will compose and grow the accelerating photonics industry going forward for all companies, with our focus on our Perkinamine(R) Electro-Optic polymers. The integrated photonics roadmaps both plan and anticipate commercial opportunities as well as potential roadblocks and/or critical needs on the way to scaling the manufacturing of integrated photonics through 2040. The silicon semiconductor industry has relied on these types of roadmaps for the past 50 years and with IPSR-I, the photonics industry is becoming organized and more influential as well."
"With our first commercial material supply and license agreement for our electro-optic polymer materials and ongoing efforts to build on this commercialization momentum, we continue to believe Lightwave Logic will become a stronger technological and commercial leader in the photonics industry," concluded Lebby.
About Lightwave Logic, Inc.
Lightwave Logic, Inc. (NASDAQ: LWLG) develops a platform leveraging its proprietary engineered electro-optic (EO) polymers to transmit data at higher speeds with less power in a small form factor. The company's high-activity and high-stability organic polymers allow Lightwave Logic to create next-generation photonic EO devices, which convert data from electrical signals into optical signals, for applications in data communications and telecommunications markets. For more information, please visit the company's website at www.lightwavelogic.com.
Safe Harbor Statement
The information posted in this release may contain forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. You can identify these statements by use of the words "may," "will," "should," "plans," "explores," "expects," "anticipates," "continue," "estimate," "project," "intend," and similar expressions. Forward-looking statements involve risks and uncertainties that could cause actual results to differ materially from those projected or anticipated. These risks and uncertainties include, but are not limited to, lack of available funding; general economic and business conditions; competition from third parties; intellectual property rights of third parties; regulatory constraints; changes in technology and methods of marketing; delays in completing various engineering and manufacturing programs; changes in customer order patterns; changes in product mix; success in technological advances and delivering technological innovations; shortages in components; production delays due to performance quality issues with outsourced components; those events and factors described by us in Item 1.A "Risk Factors" in our most recent Form 10-K; other risks to which our company is subject; other factors beyond the company's control.
Investor Relations Contact:Lucas A. ZimmermanMZ Group - MZ North America949-259-4987LWLG@mzgroup.uswww.mzgroup.us
https://c212.net/c/img/favicon.png?sn=CL86259&sd=2024-04-16
View original content to download multimedia:https://www.prnewswire.com/news-releases/lightwave-logic-demonstrates-thought-leadership-with-critical-contributions-to-global-integrated-photonics-industry-roadmap-302115206.html
SOURCE Lightwave Logic, Inc.
Truly 98.7% of people on this board need to get a LIFE. The same crap day after day after day.
The stock either goes up long term or bust long term.
There is nothing else to discuss. Have conviction either way.
Truly these boards and social media have given people in their own heads a false sense of importance.
NO ONE FUCKING CARES ABOUT YOUR OPINION !!!!
If a deal is struck on 12/31/24 will you consider that as a timeline being met?
A year ago as I recall, We were, just as close...
1) Lebby's Timeline to Mass Commercialization has remained UNCHANGED in presentations for the last few years, Lebby has told investors that LWLG would come to market at 800Gbs in 2024!!
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=172658420
2) Lebby has been making partnering DEALS at least as far back as ECOC 2019 when LWLG presented its META-STABILITY DATA that showed the material systems actually GAINED stability over time!!
3) Lebby's Timeline of 2024 is a PERFECT MATCH to what the industry is now showing to be the FASTEST ADOPTION EVER of a Next-Gen Node Implementation at 800Gbs set for, you guessed it, 2024!!! Check out this chart showing 800Gb adoption to be HUGE at $2 Billion starting in 2024!!! (note 800Gbs is the BLUE SHADED area)
https://investorshub.advfn.com/uimage/uploads/2023/8/19/wwenqIMG_7963.png
4) Lebby in the latest Wall Street Transcript just flat out told investors who the Customers are going to be when this thing ROLLS, which will undoubtably be in 2024 because that is what the INDUSTRY is saying will be the HUGE rollout of 800Gbs, and make NO MISTAKE when you read below who LWLG's Customers are going to be (all under NDA now!!)
TWST: Do you see your ideal customers like Cisco or whoever makes these particular modulation devices? Are they the ones who are going to buy?
Dr. Lebby: Yes, they will — a lot of these larger companies. The Ciscos of this world as well as the Intels and the Cienas, these types of players, Googles and others. A lot of these folks are actually vertically integrated. So they actually do a lot of the things themselves. And some of the parts they send out to foundries or to contract manufacturers.
As I see the business model, you need to be flexible, because some of these guys will want to buy from you direct. And other ones who will say, go work with our contract manufacturer or go work with our foundry, get qualified there, and then we’ll give you the business.
And so, we have to be flexible with these large guys, because they have different working models.
https://www.reddit.com/r/LWLG/comments/15twmqr/interview_with_dr_lebby_august_17_2023/
Ok folks, so Investors now now that the Intel's and Cisco's and Google's ARE THE CUSTOMERS that the Foundries PDK's HAVE BEEN DEVELOPED to serve!!!! Lebby has already told investors that there are PRODUCTION TRIALS in progress for at least the last 6 months but more likely a year or more!!!
PRODUCTION TRIALS!!! Nothing makes short sellers more nervous than finding out that Lightwave Logic’s foundry partners are currently running PRODUCTION TRIALS Why would they do that? “We” were convinced their technology would never scale and the fact that Lightwave Logic has never produced a product in 20 years was proof positive that they would never ever produce any revenue. We even talked to an ex employee who told us there were issues five years ago.
The worst news possible is learning about production runs because reaching that step means both parties want to produce and market this technology. In order to reach agreement on the terms of a license, both parties must be comfortable with the production economics. What level of upfront cash payment is appropriate? What percentage of gross modulator sales makes sense?
One thing is clear to me, the foundries want this technology and are already devoting machine time to be able to price the agreements. If I were short this stock, I would be fargin nervous as hell.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=171355567
. This expansion of our IP moat, paired with our acquisition of the mission-critical IP assets of Chromosol Ltd (UK) to strengthen foundry PDK design capabilities with extremely low temperature ALD Processes, is a part of our ability to advance initial production trials with our foundry partners and secure our first licensing agreements in the near-term.
Corporate Update March 2, 2023
A lot of green spikes , love the chart here !!!
Yep... I don't like lies and deception! That's shithouse behaviour. Wen shareholders are backing your project you should be honest and transparent unless of course your a rat and a fraud! I rest my case. By the way .. my emotions got me selling along time ago. I would be sat on thousands of pounds in losses if I didn't l. Thanks for your wise advise though .. I'll stick it on memo board with rest of lebbies bullcrap press releases! Look back at this message in two years while your at it.. you will probably be crying in your cornflakes though back to penny long land
Maybe good to realize that our messages have a power footprint:
Text-based message use 0.003-0.014 watt-hours (Wh)
Image message: 0.01-0.2 Wh
Video message: 0.1-10 Wh
Frequent and non sensical messages are a waste.
Oleblue this is very interesting from the standpoint that a major Power company is drawing a line in the sand that the cost of building out newer power generation and doing it quickly will require data centers to contribute as they will be a major driver of demand. This comes about as most power companies are bumping up against or are close to limits as there are other drivers of power usage than just data centers. Other power companies will follow.
Our country will become dependent on AI very quickly as companies build AI into their daily work systems. Having data shutdowns will have big monetary consequences for companies so they must be avoided at all costs. We have become accustomed to having power at all times and when there are slowdowns or shutdowns will get upset. Let's face it, we are spoiled. I believe raising prices for companies that use very high amounts of power makes perfect sense to help the buildout that will be needed. In fact, power companies will use AI to plan and figure out when and how to manage the costs equitably. In life, what goes around, comes around.
After all this time he is short. He is either short for real, or in an odd but different way, behaves like a short. It doesn’t matter to me, I have come to treat the behavior that way with the same strategy. Ignore. I suggest the same to others …
Best to the longs, I just don’t have time for that behavior to affect my investing in this company… we are so very, very close!!!
F2
Understanding BESS: Battery Energy
Storage Systems for Data Centers
https://download.schneider-electric.com/files?p_Doc_Ref=SPD_WP185_EN&p_enDocType=White+Paper&p_File_Name=WP185_V1_EN.pdf
Your a weird person
Both recent posted job positions are no longer there on LinkedIn- assuming they filled the Process Equipment Engineer and Product Test Engineer roles, both are still showing on their website though. I think CarlinNM recently posted about one being down from LinkedIn.
Duke Energy introduces new rates for data centers as electricity demand soars
Wants to ensure digital infrastructure providers pay their fair share
May 08, 2024
By Matthew Gooding
Utility company Duke Energy is changing the way it bills data center clients for electricity as pressure on the US power grid grows.
An amended rate structure is being imposed on new data center customers, as well as those running factories. It was put in place during Q1 following a study by Duke’s “hyperscale team,” which looked at ways that high-volume users of electricity could pay their fair share.
This will involve so-called “minimum take” clauses, which require data centers to pay for a certain amount of power, regardless of how much they consume.
Duke, which is based in Charlotte, North Carolina and owns more than 50,000MW of energy capacity, could also introduce contracts that would require data center operators to make up-front contributions to pay for new power infrastructure.
Speaking to Reuters, Duke’s CFO Brian Savoy said his company was having to take action to deal with growing demand for resources.
Though he said Duke had not signed up any new data center customers so far in 2024, Savoy believes the industry accepts that the way it pays for energy must change. "A few years ago, I would say these concepts weren't embraced by data centers or large loads because the power supply was more plentiful," Savoy said. "Now, with a constrained power supply, they understand this is what it's going to take to get in the game."
Duke expects to provide 18,000 additional gigawatt hours (GWh) of load for new customers by 2028, with data centers accounting for 25 percent of this. In February, the company said it was upping its capital expenditure for 2024 to $73 billion, an increase of $8 billion compared to its previous estimates.
The rapid build-out of new digital infrastructure, largely driven by demand for AI workloads which require high-power, high-density data centers, means the amount of electricity required by the sector is growing fast.
In the US alone, power consumption from data centers is expected to reach 35GW a year by the end of the decade, more than double its 2022 level.
Duke is already working with data center operators, and in February said it was talking to some of the biggest players in the industry about utilizing their backup generators during times of peak demand.
https://www.datacenterdynamics.com/en/news/duke-energy-introduces-new-rates-for-data-centers-as-electricity-demand-soars/
White paper on powering data center of the future:
https://www.eaton.com/content/dam/eaton/markets/data-center/eaton-powering-dc-future.pdf
Vein does not read anything he is constantly whining, as well asking others to complain on behalf of him but should do it himself is he is not ok with things
Vein, if you are an investor (owner) of LWLG and do not read the SEC filings, then I have no words.
you are an emotional type of investor
you still need to pay your tuition fees
and you will!
There's something wrong when the knowledgeable on this board know more than the tier one potential customers.
@vein please come on don’t be so childishly sell your stock and move on you are acting more like a baby as the days pass
I’m just bored !!!!
10k shares in 10 mins Shorts good luck with that capitulation trade of 20+ million shares you need before Lebby drops the MOAB of all deals with huge Tier 1's and large Foundries doing the mass production on 200mm wafers!!!
Spekkie said, When I asked whether the products were ready and if any issues were outstanding, he clearly said that everything was ready (stability, scaling etc) and the time line was fully intact and there were no changes to that. Tier 1’s are very interested and the number of them significantly increased after OFC demo’s.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174302051
Exactly!! meanwhile Longs are being throttled here, I can't post much while Shorts and FAKE Longs mudsling at me and other Longs here NONSTOP!!!
Fact is LWLG has multiple products already, they have multiple versions of it's Perk Polymer, the latest being Perk 6, now available for Licensing, in addition they have a 200Gb modulator that is now capable of being produced at several large Foundries on 200mm Wafers including the Poling being performed at Wafer scale something Shorts said was impossible, Lebby has told investors that Customers could use these modulators in quantities of 4 per Transceiver device to produce an 800Gbs Transceiver currently, but the preference of the large Transceiver companies (Cisco etc) would be to use the single chip modulator array (4x200) which is still under construction but Lebby announced publicly at PECC that it would be ready sometime in 2024, but the individual modulators would be used in Sampling now while the single chip modulator array (4x200) would be used in mass commercialization, Lebby is still on track with his Timeline of Customer Acceptance and Ramp in 2024 and has not backed down on his SAM/SOM guidance, Shorts are the LYING SCAMMERS period!!
Remember that it is because of the following two main reasons that Tier 1 interest has skyrocketed in recent months
1) the early 2024 "Big Milestone" achieved of success in Mass Production of LWLG modulators on large Foundries 200mm Wafers
2) the INCREDIBLE reliability/stability data collected/presented at ECOC 2023 and then even more so at OFC in March 2024
Investors have learned INCREDIBLE Developments in 2024 so far!!! here is a summary of things investors have learned form OFC in March 2024, and Lebby's LD Micro Interview in April, as well as Lebby's Belgium visit/presentations in April
1) Lebby has LWLG modulators being implemented at SEVERAL large Foundries on 200mm Wafers now beginning in early 2024!! Lebby declared it a "BIG MILESTONE"!!!
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174278606
2) Lebby has achieved Volume Scale Poling on 200mm Wafers!!! (successfully able to Pole Thousands of Devices at a time!!)
3) Lebby's LWLG team of seven completed demonstrations at OFC to over 20 potential Customers!! NDA's now estimated at 40 companies
4) the response to the OFC demos has been so overwhelming that Lebby claims the Tier 1's "being PULLED along" has become more like "being dragged along" (a good problem to have!!!)
Spekkie posted this
, Important take away we are working with multiple tier ones, tripled since a few weeks after OFC , wow we are golden
5) The Customer Funnel slide is updated and now showing greater than 20 Prospects and greater than 10 Leads, where in the ASM presentation it was only greater than 12 Prospects and 5 Leads, so about DOUBLED since the ASM!!!!
6) at OFC Google had a shout out to (LWLG) EOP on their slide for hetero integration.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174276893
7) KCC reported "the transceiver partner is a giant company that is dedicating a lot of their own resources to LWLG’s development."
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174279401
8) Lebby also showcased that LWLG's Perk 6 is NOW ready and available for Licensing !!!
9) Lebby reported that 3rd party ETH Zurich set world record performance with LWLG Polymers running at 400Gbs per lane enabling 4 lane 1600gbs!!! This ensures LWLG ALREADY capable to meet the future Roadmap
10) The response from the Tier 1's is so overwhelming such that Lebby is 100% focused on SEVERAL Tier 1's who are battling it out for Lebby/LWLG's time and attention to bring 4x200 powered Transceivers to market ASAP!!
Folks this is a Cinderella story 40 years in the making!!!
For OVER 40 YEARS the Industry has tried UNSUCCESSFULLY!!
IBM, Intel, Boeing, Lockheed Martin, DuPont, AT&T Bell Labs, Honeywell, Motorola, GE, HP, 3M, and others in addition to numerous Universities and U.S. Government Agencies, DARPA, DOD, etc have all attempted to produce high-performance, high-stability electro-optic polymers
The Industry combined has spent literally in the Billions R&D $$ UNSUCCESSFULLY trying to do what LWLG has done!
LWLG's technology has been successfully developed in much less time than what the Industry spent, and at a cost less than 5% of what the Industry spent screwing around with unstable fragile molecules for 40 years!
RIDDLE ME THIS >> WHY WOULD THE INDUSTRY SPEND BILLIONS AND BILLIONS OF $$ ON SOMETHING THEY DIDN'T DESPERATELY WANT???????
Just stop. How old are you? You act like your a kid sometimes. You made an investment. Stick with it or sell it but dont come on here and whine about it daily.
Nasdaq at all time highs and Lebby is out shopping for new glasses
Read my posts from previous weeks and you will note that I am still a VERY strong believer.
I think I posted a message every day last week .
MVIS IS not currently working with LPC. There are some key differences. One is that their CEO does not have the credentials in the industry as compared to Dr. Lebby. MVIS has quite a bit of competition, but would fill out a spider chart in a superior way although competition is closing in.
Also very notable is the demand for the bandwidth, size and power savings for LWLG solutions are in high demand the world over. Lidar timeline will take longer to evolve and is also tied to legislation and governing bodies. They are not apples to apples in my view.
Over time I have reduced my holdings in MVIS by almost 2/3rds, creating a basket of AI stocks with those funds, yet I am still accumulating LWLG. LWLG does need to execute, and not miss commercialization cycles. Same with MVIS, so some similarities. MVIS took a hit this earnings call, and their RFQs were reduced from 9 to 7 based on low volume deals offered by the two that did not advance. LWLG is working with multiple tier one's, and similarly targeting the approach that will provide mass commercialization in volume. In this respect - both will still be huge winners if and when they land a tier one. Microvision's solution will require a higher capital structure than LWLG once a deal is inked.
Over two years ago.... And cottoned on to the bull and the lies by lebby and the longs! Why don't you copy and paste lebbys statements over last two years and post them??? Exactly ...Your the fool.
The 10q ain’t a stock mover
We should have a 10Q to read tonight and over the weekend based on 1Q23 filing date (5/10). I will be analyzing the burn rate, legal and R&D expenses, and dissecting management commentary and any changes from recent 10K. Should keep us all occupied until Monday.
Pickle
Sorry Joker, it is not because you lie everyday, that everyone is lying !
With all your lying, you lost reality !!
#thejoker
you
little over 2 years ago:
Quoting:
"I'm highering my average price.. And the reason is simple.. I'm invested here for 4 years minimum..already have enough to be very content but 13 dollars a share is cheap from what I'm expecting in that time frame. I'll keep chipping away until the base level is 20 dollars just out of pure greed lol... Feed me the goo"
you are a joke
Lebby said, he was going to close a couple deals by end of December. 6 months later and crickets.
The saying and the doing has not been lining up.
Definitely more talking than action and follow through.
Looking like Marcellis play book.
Spekkie said, When I asked whether the products were ready and if any issues were outstanding, he clearly said that everything was ready (stability, scaling etc) and the time line was fully intact and there were no changes to that. Tier 1’s are very interested and the number of them significantly increased after OFC demo’s.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174302051
Exactly!! meanwhile Longs are being throttled here, I can't post much while Shorts and FAKE Longs mudsling at me and other Longs here NONSTOP!!!
Fact is LWLG has multiple products already, they have multiple versions of it's Perk Polymer, the latest being Perk 6, now available for Licensing, in addition they have a 200Gb modulator that is now capable of being produced at several large Foundries on 200mm Wafers including the Poling being performed at Wafer scale something Shorts said was impossible, Lebby has told investors that Customers could use these modulators in quantities of 4 per Transceiver device to produce an 800Gbs Transceiver currently, but the preference of the large Transceiver companies (Cisco etc) would be to use the single chip modulator array (4x200) which is still under construction but Lebby announced publicly at PECC that it would be ready sometime in 2024, but the individual modulators would be used in Sampling now while the single chip modulator array (4x200) would be used in mass commercialization, Lebby is still on track with his Timeline of Customer Acceptance and Ramp in 2024 and has not backed down on his SAM/SOM guidance, Shorts are the LYING SCAMMERS period!!
Remember that it is because of the following two main reasons that Tier 1 interest has skyrocketed in recent months
1) the early 2024 "Big Milestone" achieved of success in Mass Production of LWLG modulators on large Foundries 200mm Wafers
2) the INCREDIBLE reliability/stability data collected/presented at ECOC 2023 and then even more so at OFC in March 2024
Investors have learned INCREDIBLE Developments in 2024 so far!!! here is a summary of things investors have learned form OFC in March 2024, and Lebby's LD Micro Interview in April, as well as Lebby's Belgium visit/presentations in April
1) Lebby has LWLG modulators being implemented at SEVERAL large Foundries on 200mm Wafers now beginning in early 2024!! Lebby declared it a "BIG MILESTONE"!!!
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174278606
2) Lebby has achieved Volume Scale Poling on 200mm Wafers!!! (successfully able to Pole Thousands of Devices at a time!!)
3) Lebby's LWLG team of seven completed demonstrations at OFC to over 20 potential Customers!! NDA's now estimated at 40 companies
4) the response to the OFC demos has been so overwhelming that Lebby claims the Tier 1's "being PULLED along" has become more like "being dragged along" (a good problem to have!!!)
Spekkie posted this
, Important take away we are working with multiple tier ones, tripled since a few weeks after OFC , wow we are golden
5) The Customer Funnel slide is updated and now showing greater than 20 Prospects and greater than 10 Leads, where in the ASM presentation it was only greater than 12 Prospects and 5 Leads, so about DOUBLED since the ASM!!!!
6) at OFC Google had a shout out to (LWLG) EOP on their slide for hetero integration.
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174276893
7) KCC reported "the transceiver partner is a giant company that is dedicating a lot of their own resources to LWLG’s development."
https://investorshub.advfn.com/boards/read_msg.aspx?message_id=174279401
8) Lebby also showcased that LWLG's Perk 6 is NOW ready and available for Licensing !!!
9) Lebby reported that 3rd party ETH Zurich set world record performance with LWLG Polymers running at 400Gbs per lane enabling 4 lane 1600gbs!!! This ensures LWLG ALREADY capable to meet the future Roadmap
10) The response from the Tier 1's is so overwhelming such that Lebby is 100% focused on SEVERAL Tier 1's who are battling it out for Lebby/LWLG's time and attention to bring 4x200 powered Transceivers to market ASAP!!
Folks this is a Cinderella story 40 years in the making!!!
For OVER 40 YEARS the Industry has tried UNSUCCESSFULLY!!
IBM, Intel, Boeing, Lockheed Martin, DuPont, AT&T Bell Labs, Honeywell, Motorola, GE, HP, 3M, and others in addition to numerous Universities and U.S. Government Agencies, DARPA, DOD, etc have all attempted to produce high-performance, high-stability electro-optic polymers
The Industry combined has spent literally in the Billions R&D $$ UNSUCCESSFULLY trying to do what LWLG has done!
LWLG's technology has been successfully developed in much less time than what the Industry spent, and at a cost less than 5% of what the Industry spent screwing around with unstable fragile molecules for 40 years!
RIDDLE ME THIS >> WHY WOULD THE INDUSTRY SPEND BILLIONS AND BILLIONS OF $$ ON SOMETHING THEY DIDN'T DESPERATELY WANT???????
For OVER 40 YEARS the Industry has tried UNSUCCESSFULLY!!
IBM, Intel, Boeing, Lockheed Martin, DuPont, AT&T Bell Labs, Honeywell, Motorola, GE, HP, 3M, and others in addition to numerous Universities and U.S. Government Agencies, DARPA, DOD, etc have all attempted to produce high-performance, high-stability electro-optic polymers
The Industry combined has spent literally in the Billions R&D $$ UNSUCCESSFULLY trying to do what LWLG has done!
LWLG's technology has been successfully developed in much less time than what the Industry spent, and at a cost less than 5% of what the Industry spent screwing around with unstable fragile molecules for 40 years!
RIDDLE ME THIS >> WHY WOULD THE INDUSTRY SPEND BILLIONS AND BILLIONS OF $$ ON SOMETHING THEY DIDN'T DESPERATELY WANT???????
Electro-Optic Polymer Production – Our Approach vs. the BLA Approach
LWLG's P2IC Platform is cheaper ($1/Gb) & better (lower power 1v) & scalable (100Gbs to 400Gbs to 800Gbs and beyond!)
Brief polymer history…
• <1980s
– Strong government funding for non-linear electro-optic organic
polymers (DARPA, NSF, DOE, DoD etc.)
– Many papers, reports, books
• 1980s – 2000s
– Heavy, focused, and increased gvt funding for non-linear EO organic
polymers (DARPA, NSF, DOE, DoD, USAirForce, USNavy, USArmy, EU)
– Industry R&D lab funding e.g. Du Pont, Dow, Akzo Nobel, IBM, Intel,
Boeing, Motorola, AT&T Bell Labs, GE, Lockheed etc.
– Increase in papers, publications, conferences, and books
• 2000s – 2010s
– Wane in government funding and industrial R&D lab activity
– Limited commercialization in fiber based communications
• >2010s
– Excellent progress on high speed performance (>100Gbaud)
– Resurgence?
LWLG inventor Fred Goetz took an opposite approach, he started with something inherently STABILE, a plastic, and worked to make it E/O active, the result was a 3rd generation Polymer that is LWLG
Read below to understand why LWLG has succeeded now, and YES they have succeeded, just need to be accepted and this rocket will launch !!
Paradox of Electro-Optics
Certain materials are made of robust molecules and their electrons are so strongly bound in the molecular structure that it is difficult for them to vibrate or breakaway.
Such materials may be robust but generally their electrons do not vibrate easily. By analogy, a beer-mug may be thick -walled but it would be much more difficult for our soprano to vibrate it with his or her voice.
This has been the dilemma of electro -optics. Creating a molecule in which an electron can oscillate freely back and forth when hit by light but which does not wildly vibrate the material toward its own resonant destruction.
Second-generation electro-optics are fragile like champagne flutes It was a daunting challenge. Scientists had been working on the problem since the 1960's and by the late -90's most everyone had deemed the task impossible, just as it is infeasible to merge the delicate vibration character of a champagne flute with a Hamburg beer stein.
Second-Generation
Second-generation electro-optic polymers are excellent high -
performance electron oscillators. Their long fluted shape however makes them highly unstable and unreliable.
Most scientists had been trying to make more slender and delicate "molecular flutes" that would vibrate easily, blindly hoping that they would somehow, someday figure out how to stabilize these molecular structures. This thin and delicate class of molecules has become known as second-generation electro-optic materials.
Third-Generation (LWLG)
Meanwhile, the scientists at LWLG continued quietly and
indefatigably toward the Holy Grail, the Fluted Stein. A molecule that was robust and yet which would vibrate more easily than the thinnest sliver of crystal. Once thought impossible, LWLG succeeded on their quest, producing today's third-generation of electro-optic molecules. LWLG scientists accomplished this by stabilizing the core of the molecule with interlocking atomic rings, much like crosshatches or the rungs of a ladder.
Third-generation electro-optic materials are even higher performing as electron oscillators. Their ring-locked shape gives them tremendous stability. Within these structures the electrons still vibrate easily, in fact they oscillate significantly better than within second -generation materials, yet they are incredibly robust due to their reinforced scaffold-like structure.
Patience? They’ve been lying to investors about commercialization being just around the corner for 30 years.
10’s of millions of dollars transferred from low info retail to insiders pockets via paychecks, bonuses, and corporate perks.
They are still lying!
Nothing meaningful will come to fruition over the foreseeable future.
There should and will be a shareholder lawsuit against ML and the company for the Dec 4 2023 press release.
#scam
And a little patience my friend, some have it, others don't!
No money in the CEO role anymore.... Lebby and Marcelli have rinsed it dry! You go for it though .. you sound like you like losing money
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Moderators pochemunyet prototype_101 Pro_v12001 LOVELWLG JLPTNG Lightning_Rod |
The need for Lightwave Logic’s proprietary electro-optic polymers is more evident than at any prior point in history, with internet infrastructure coming under increasing strain due to increased online activity. For example, during the recent COVID-19 pandemic, leading platforms such as YouTube prevented high-definition (HD) streaming in Europe due to data throughput issues in existing internet infrastructure.
The Company’s current focus is on the datacom and telecommunications hardware supply chain for the 100 Gbps and 400 Gbps fiber optics communications market, seeking to integrate its proprietary materials into the devices that comprise key components in today’s internet infrastructure. Lightwave Logic’s unique value proposition, including ease of manufacture relative to traditional solutions, has driven several tier-1 and tier-2 potential strategic partners in the data and telecommunications markets to enter into non-disclosure agreements (NDAs) with Lightwave Logic to evaluate its technology for use in their devices, validating the demand for the Company’s solution in the marketplace. The Company expects to introduce its technology into the commercial marketplace in the near future.
Lightwave Logic is a wholly U.S.-based company with in-house materials synthesis, device/package design, wafer fabrication and testing capabilities at its Englewood, Colorado headquarters.
Having the modulator and integrated circuit development in-house has informed the materials development direction and vice versa. This vertically integrated business model enables a superior platform by aligning the design for manufacturability from materials to complex circuits with the following benefits:
Materials are called electro-optic when they enable interactions between applied electric fields and light passing through them. Notably, they change the refractive index seen by the light with minimum loss. The result is an instantaneous and accurate conversion of an electrical signal to an optical signal. Optical signals are better for transmission over distance: an increasingly useful feature as digital signal speeds are now reaching the GHz and THz ranges and the corresponding electrical transmission distances are shrinking to meters and centimeters.
EO polymers are intrinsically superior in speed and sensitivity to electric field to traditional electro-optic materials such as Lithium Niobate, Indium Phosphide and Silicon. They are engineered materials, made by embedding a variety of specially designed electro-optic chromophore molecules into a wide range of standard host polymers.
Chromophores are complex, large molecules, on a scale akin to drug molecules. They are hyperpolarizable, meaning their electron clouds are easily pulled into a different shape by the applied electric field, changing their optical properties such as index of refraction.
The material is poled to become electro-optic by applying a strong electric field along with heat. The hot material is relatively soft, allowing the chromophore molecules suspended in the host polymer to align in the same direction (poling). Cooling the poled material after the molecules are in place traps them in their active state even after the poling field is removed.
Although the electrons in the material respond to any applied electric field, they remain tightly bound to the molecule. The response to an applied signal is almost instantaneous response and recovery– like that of a tight spring– unlike materials that involve much slower macroscopic movement of free electrons.
Another key difference from traditional crystalline materials is the performance of EO polymers continues to improve as chemists explore the almost unlimited design space. Combinations of chromophores and host polymers can be tailored for specific applications.
In addition to innovating the EO polymer materials, Lightwave Logic takes its technology platform to the next level by developing ancillary materials and processes. These elements are brought together and demonstrated in advanced high-speed optical modulators.
The polymer is spun onto silicon wafers and standard microfabrication techniques are used to deposit and pattern metal electrodes and optical waveguides.
One well-known optical modulator device is the Mach-Zehnder interferometer. The light output is changed by changing the relative phase between the two arms. One common trick to double the effect for the same available drive voltage is to drive the two arms in opposite directions (push-pull mode). Polymers have an interesting advantage over most other electro-optic materials which are crystalline. The direction of polymer’s electro-optic activity is entirely determined by the direction of the applied poling field. By poling the two arms of the Mach-Zehnder in opposite directions, the resulting device automatically has push-pull operation with a single applied signal.
Once the modulator chip is made, it is packaged for mechanical protection and also to ensure signal quality for electrical and optical connections.
Below is a polymer optical modulator with >60 GHz bandwidth packaged with high-speed electrical connectors and optical pigtails.
Inspired by the remarkable record of integrated microelectronics, the opto-electronics industry has great interest in developing photonic integrated circuits (PICS). Photonics refers to devices that manipulate photons—that is, light—rather than electrons.
Even the best individual devices can be made more functional by integrating many together. Integration has many benefits, the most notable being dramatic improvements in size and cost. Yet, photonic integration has only recently come into the spotlight. The primary applications for photonics used to require stand-alone, high performance components such as used for long-haul telecom.
Now, photonic integration has suddenly come into the spotlight as electronic interconnects struggle to keep up with speed increases of electronic chips. Photonics is being looked at to replace electronics in already highly integrated applications such as chip interconnect. Co-packaging of electronics integrated circuits (ICs) with photonic interconnect, considered unlikely a few years ago, is now viewed by many as inevitable. However, this requirement poses new challenges that are acknowledged as difficult and that new technologies will be required to meet them.
P2IC™ (Polymer Photonic Integrated Circuits) are ideally positioned to be one of these new technologies. Lightwave Logic’s devices are made using conventional wafer-scale processing such as used for microelectronics and therefore similarly capable of being integrated. In addition, the polymer microfabrication processes are compatible with other materials platforms such as Silicon Photonics and Indium Phosphide which are now starting to become more integrated. In particular, the Silicon Photonics ecosystem has recently accepted that its roadmap will include adding more and more materials, each for their specific benefits. EO polymers’ speed and voltage advantages are attractive additions to this ecosystem.
A fiber link sends data from a transmitter to a receiver through an optical fiber cable. Lightwave Logic’s technology can be used to make a data modulator, a central function of the transmitter.
Datacenters and high-performance computing (HPC) are two market segments that demand the very highest speed optical fiber communications. The datacenter fiber communications segment includes applications ranging from connections inside hyperscale datacenters to fiber links between datacenter campuses.
Optical fiber communication is the infrastructure that supports internet content through its entire lifecycle, between businesses, consumers and datacenters. Behind the scenes, massive amounts of data move between computer processors inside datacenters (or inside supercomputers) as content is generated. In addition to these intra-datacenter links, there are also significant datacenter interconnection links between big datacenters to provide flexible capacity and resilience – all of these represent significant addressable market segments for Lightwave Logic’s technology.
Modulator performance limits the speed of the transmitter, which in turn limits the data-carrying capacity of the entire fiber link. EO polymers have superior speed and sharply reduce the electrical power needed to operate the modulators.
Lightwave Logic estimates that in 2019, the total market for opto-electronic components used in the fiber optics market reached a value of ~$26 billion and is forecasted to grow to approximately $80 billion by 2030.
Above: Market forecasts for photonic (electro-optic) components and transceivers used in optical fiber communications. (Source: Oculi LLC)
The growth in the optical fiber communications market is driven by many factors, primarily:
The historic trend has been a migration from text to graphics, followed by still graphics to increasingly high-definition video. On the accessibility front, the introduction of 5G will enable low-cost mobile internet connections at the same, or higher speeds, as today’s home broadband. This trend continues today as users demand more data at all times.
Recently, particularly since the onset of the COVID-19 pandemic, there has been a sharp increase in reliance on video-conferencing services, often replacing in-person meetings. As video conferencing becomes more commonly used, users will continue to demand faster response times to enable no-lag, real-time communications in full HD.
The benefits of EO polymers, such as low power usage, high speed, increased throughput and lower cost make them ideally suited for markets outside of communications as well, including in consumer, media, augmented reality/virtual reality, medical and industrial applications.
Developing, protecting and commercializing intellectual property is central to Lightwave Logic’s identity as a technology company. Lightwave Logic has over 50 U.S. and international patents and applications that are issued or pending.
These patents provide freedom of manufacture for the company’s electro-optic (EO) polymer materials systems and its optical device technology.
Lightwave Logic’s patent portfolio covers the following areas:
The company continuously seeks to innovate new electro-optic chromophores, designing molecular architectures to meet application needs such as high electro-optic activity and stability. We also design ancillary materials that are useful in conjunction with the EO polymers themselves. Example patents within the materials category include:
Publication Number | Title |
---|---|
US Patent 7,902,322 | Nonlinear optical chromophores with stabilizing substituent and electro-optic devices |
US Patent 9,535,215 | Fluorinated Sol-Gel Low Refractive Index Hybrid Optical Cladding and Electro-Optic Devices Made Therefrom |
As the company demonstrates its materials in devices, such as modulators, it has engineered ways to enhance device performance by means of device design and optimized control. Example patents within the optical device category include:
Publication Number | Title |
---|---|
US Patent 10,520,673 | Protection layers for polymer modulators/waveguides |
US Patent 7,738,745 | Method of Biasing and Operating Electr-Optic Polymer Optical Modulators |
Materials innovations are followed by methods in which the Company or its partners can best work with the materials in the fabrication process. Example patents within the fabrication category include:
Publication Number | Title |
---|---|
US Patent Application 20190353843 | Fabrication process of polymer based photonic apparatus and the apparatus |
US Patent 10,591,755 | Direct-drive polymer modulator methods of fabricating and materials therefor |
Polymers can be used to add functionality to existing semiconductor devices, inclusive of making photonic integrated circuits (ICs). Areas of active innovation include how to get light from one material system into another with minimal losses. Example patents within the semiconductor integration category include:
Publication Number | Title |
---|---|
US Patent 10,527,786 | Polymer modulator and laser integrated on a common platform and method |
US Patent 10,511,146 | Guide transition device with digital grating deflectors and method |
Challenges for high-speed optical packaging includes maintaining the quality of radio-frequency electrical signals and hermetic/environmental sealing of devices for durability (while still allowing light to go through). Example patents within the packaging category include:
Publication Number | Title |
---|---|
US Patent 10,574,025 | Hermetic capsule and method for a monolithic photonic integrated circuit |
US Patent 10,162,111 | Multi-fiber/port hermetic capsule sealed by metallization and method |
We cannot assure you that we will meet the conditions of the 2023 Purchase Agreement with Lincoln Park in order to obligate Lincoln Park to purchase our shares of common stock, and we cannot assure you that we will be able to sell any shares under or fully utilize the Roth Sales Agreement. In the event we fail to do so, and other adequate funds are not available to satisfy long-term capital requirements, or if planned revenues are not generated, we may be required to substantially limit our operations. This limitation of operations may include reductions in capital expenditures and reductions in staff and discretionary costs.
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