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Thank you for sharing that info RL, very interesting indeed!
"where he led the due diligence and selection of the company's foundry partners for fabrication of its Silicon photonic integrated circuits (PICs)"
Such a valuable asset to LWLG's Board...!
Dr. Joseph A. Miller, Jr. has served as a director of Lightwave Logic, Inc. since May, 2011. From 2002 to May 2012, he was Executive Vice President and Chief Technology Officer of Corning Inc., having joined Corning in 2001 as Senior Vice President and Chief Technology Officer. Prior to joining Corning Incorporated, Dr. Miller was with E.I. DuPont de Nemours, Inc., where he served as Chief Technology Officer and Senior Vice President for Research and Development since 1994. Dr. Miller began his career with DuPont in 1966. Dr. Miller is a director of Greatbatch, Inc. and Dow Corning Corporation and holds a doctorate degree in Chemistry from Penn State University. He was elected to the National Academy of Engineering in 1998 for originating, developing, leading, and directing major engineering initiatives and substantial technology innovations in chemical industries.
https://www.lightwavelogic.com/about-us/leadership/
https://www.corning.com/data-center/worldwide/en/home.html
Jan 27, 2022
Lightwave Logic Appoints Respected Industry Veteran Dr. John Zyskind as Vice President of Engineering
"where he led the due diligence and selection of the company's foundry partners for fabrication of its Silicon photonic integrated circuits (PICs),"
https://www.lightwavelogic.com
SELECTION OF THE COMPANY'S FOUNDRY PARTNERS....;)
Appreciate you sharing your research LWLG Believer. Very encouraging!
Some incredible predictions by Cathie Wood of ARK
@inglouriouscap 13h
Here are combined industry market caps by 2030 according to ARK:
- $100 trillion for AI
- $30 trillion for autonomous vehicles
- $10 trillion in robotics
- $3 trillion for genomes
- $50 trillion for digital wallets
The combined market cap of the S&P 500 is ~$40 trillion today
I'll say again, a technological tsunami is rapidly heading towards us! We are in for quite a ride!
Notable:
Corning (GLW) up +8.07% (+$2.85) $38.15 pre market trading on growth in
OPTICAL COMPONENTS,
Life Sciences,
and Automotive
“We are privileged to welcome Craig to the Board of Directors, stepping up from his current role as a member of the Advisory Board,” said Tom Zelibor, Chairman of Lightwave Logic. “He is an accomplished expert in silicon photonics, silicon foundries, fiber optic communications...
A stellar appointment...bring those Illumina eyeballs over to LWLG!!!
Exactly!
Elated would be an understatement, in the event we might hear LWLG is working w/ GF...:)
"the company has surpassed Qualcomm as the world's biggest mobile processor maker by shipments, with a more than 40% market share,"
SEMICONDUCTORS
Comeback kid: How Taiwan's MediaTek rose to mobile chip dominance
CEO has driven turnaround since taking reins over four years ago
January 4, 2022 12:30 JST
https://asia.nikkei.com/Business/Tech/Semiconductors/Comeback-kid-How-Taiwan-s-MediaTek-rose-to-mobile-chip-dominance
GF's largest customer ...4.69%
About:
mediatek.com
DescriptionMediaTek Inc. is a Taiwanese fabless semiconductor company that provides chips for wireless communications, high-definition television, handheld mobile devices like smartphones and tablet computers, navigation systems, consumer multimedia products and digital subscriber line services as well as optical disc drives. Wikipedia
Founder: Tsai Ming-kai
Founded: May 28, 1997, Taiwan, Taiwan
Headquarters: Hsinchu, Taiwan
Number of employees: 17,449 (2019)
Revenue: 322.2 billion TWD (2020)
Subsidiaries: MStar, Richtek Technology, Ralink, MORE
CEO: Rick Tsai (Jun 1, 2017–), Tsai Ming-kai (May 21, 1997–)
An interesting GF fact...
10/23/21
Its largest customers are worth more than $1 trillion
GlobalFoundries listed its 10 top customers, a group of chip makers that in total have a market capitalization of more than $1 trillion. Those customers include Qualcomm Inc. QCOM, +2.61%, MediaTek Inc. 2454, +4.69%, NXP Semiconductors N.V. NXPI, +1.55%, Qorvo, Inc. QRVO, +1.35%, Cirrus Logic, Inc. CRUS, +1.82%, AMD, Skyworks Solutions, Inc. SWKS, +1.99%, Murata Manufacturing Co. 6981, +0.41%, Samsung Electronics Co. 005930, +0.26%, and Broadcom Inc. AVGO, -0.14%.
The company said that 61% of its wafers shipped in 2020 were “single-sourced” products, meaning those products that “can only be manufactured with our technology and cannot be manufactured elsewhere without significant customer redesigns,” up from 48% in 2018.
Currently, GlobalFoundries said it had revenue commitments of about $20 billion, with more than $10 billion of that over the period from 2022 through 2023, and more than $2.5 billion in “advanced payments and capacity reservation fees.”
Off topic: Had no idea Nokia has been around so long...
@JonErlichman 2m
Companies founded more than 100 years ago:
Nokia: 157 years
Campbell’s Soup: 153 years
Nintendo: 133 years
Coca-Cola: 130 years
Hershey’s: 128 years
Target: 120 years
Ford: 119 years
Harley-Davidson: 119 years
Kellogg’s: 116 years
UPS: 115 years
IBM: 111 years
Boeing: 106 years
Honestly don't know, but I would think LWLG would have been mentioned in the closing statement had we been involved directly. Hopefully we were indirectly involved and this pr was all about Nokia, just as our pr was all about LWLG with no mention in either pr of the additional companies that surely were indirectly involved further down the food chain in both instances...
"This achievement was obtained by a multi-company team, bringing together the best expertise, innovation, and knowledge from Polariton and Nokia Bell Labs."
Nice catch Pro, had forgotten about that!
Polariton and Nokia collaboration sets world record for high-speed datacenter communication
November 16, 2021 Zurich, Switzerland
Polariton Technologies announces a new world-record data transmission using a packaged Mach-Zehnder modulator in a direct-detection scenario. The world record was set by Nokia Bell Labs in Stuttgart, Germany, using Polariton’s fully- packaged >110 GHz C-band plasmonic Mach-Zehnder modulator. The team demonstrated ultra-high-symbol-rate modulation of 304 GBd and a record-high data rate of 432 Gbit/s on a single wavelength and polarization.
“This is an important step towards making data communication more energy- and cost-efficient,” says Dr. Benedikt Baeuerle, co-CTO at Polariton Technologies. “By increasing the single-lane speed, we can reduce the number of parallel communication channels and therefore can save on components, deployed fibers, and in the end, the power consumed by the system.”
“The ultra-broadband modulator from Polariton Technologies allowed us to achieve symbol rates exceeding 300 GBd in our lab. This record symbol rate is an important milestone towards the realization of high-speed optical lanes, which are the basic ingredients of future datacenter interconnects,” says Dr. Qian Hu, the principal investigator on this project from Nokia Bell Labs, who presented this world record trial during the post-deadline session of the 47th European Conference on Optical Communication (ECOC) in September 2021.
The outlook for plasmonic technology is even more exciting after reaching such records, especially in the datacenter industry. Moreover, due to the expansive growth of cloud computing, there is even more of an urgent need for developing better, efficient, and faster ways to connect.
Polariton Technologies’ plasmonic modulator was the key element to achieving this record. With its high bandwidth and small footprint, it is especially interesting for data centers since it makes it possible to keep parallel lanes while increasing the total data rate of the optical interface. This enables low complexity chips with low power consumption, which is essential to achieve a high degree of integration and a high faceplate density in the case of pluggable form factors.
This achievement was obtained by a multi-company team, bringing together the best expertise, innovation, and knowledge from Polariton and Nokia Bell Labs.
We especially want to thank the researchers and scientists that made this achievement possible.
About Polariton Technologies Ltd.
Polariton Technologies is on a mission to revolutionize the future of telecommunications by accelerating information transport and reducing its power consumption. Polariton is providing the world's fastest, most compact, and energy- efficient electro-optic devices with applications in telecommunications, datacenters, wireless communications (5G/6G), space, and sensing. Founded in
2019, Polariton is a spin-off of ETH Zurich, taking pride in teamwork, clear and effective communication, and curiosity.
About Nokia
At Nokia, we create technology that helps the world act together.
As a trusted partner for critical networks, we are committed to innovation and technology leadership across mobile, fixed and cloud networks. We create value with intellectual property and long-term research, led by the award-winning Nokia Bell Labs.
Adhering to the highest standards of integrity and security, we help build the capabilities needed for a more productive, sustainable and inclusive world.
Media Contact Polariton:
Helena Echeverri Marketing Manager hello@polariton.ch www.polariton.ch
https://www.polariton.ch/wp-content/uploads/2021/11/Polariton-and-Nokia-collaboration.pdf
That is quite interesting AB, a matter of National security one could argue.
Data Exponential Amplified by AI
We estimate machine-generated data first exceeded human-generated data in 2018. Our proprietary data model suggests that by around 2025, machines will generate 99 percent of data created, fueled by a confluence of emerging applications including AI, the Internet of Things (IoT), blockchain, the metaverse and Web 3.0. Arguably still in their infancy, these applications create new, virtuous cycles, with increasing data generation requiring commensurate increases in data processing.
https://blog.appliedmaterials.com/battle-exponentials-different-way-think-about-accelerating-semiconductor-growth
Polariton and Nokia collaboration sets world record for high-speed datacenter communication
November 16, 2021 Zurich, Switzerland
Polariton Technologies announces a new world-record data transmission using a packaged Mach-Zehnder modulator in a direct-detection scenario. The world record was set by Nokia Bell Labs in Stuttgart, Germany, using Polariton’s fully- packaged >110 GHz C-band plasmonic Mach-Zehnder modulator. The team demonstrated ultra-high-symbol-rate modulation of 304 GBd and a record-high data rate of 432 Gbit/s on a single wavelength and polarization.
https://www.polariton.ch/wp-content/uploads/2021/11/Polariton-and-Nokia-collaboration.pdf
I like the direction Polariton is heading!
Disruptive technology adoption always takes time to work it's way through the cogs of the giant corporate machinery. Funny how everything is relative, when you've been here as long as I have (among many others) developments now feel like they are moving at "light speed"...) compared to the early days.
Lightwave Logic and Polariton Technologies Achieve World-Record Performance for Ultra-High-Speed Modulators
Sept. 16, 2021 ENGLEWOOD, Colo. and ZURICH, PRNewswire
"We now turn our attention to further optimizing this performance with silicon foundries through both materials and optical device design. With performance achievements such as this, we believe that many companies will quickly see the potential impact that high performance optical switching devices using our polymers can have on their business," concluded Lebby.
Dr. Wolfgang Heni, Co-CTO at Polariton, added: "Polariton has always been dedicated to providing best-in-class devices with the highest-performance. Our goal is to make optical communications faster, the technology more scalable and with it, components and infrastructure more energy-efficient. Our recent demonstration of a plasmonic racetrack modulator once again showcased how the unique combination of plasmonics, silicon photonics, and organic electro-optics offers high-speed and energy-efficient components. We are pleased to have worked with Lightwave Logic, providing us with high-performance and reliable PerkinamineTM chromophores to demonstrate this new world record, further highlighting the benefits of our plasmonic modulator technology. Together, we hope to revolutionize the future of the internet through adoption of next-generation electro-optic polymer platforms."
https://www.polariton.ch/news
Older pr, (5/19/21) but very much worth a re read...
“GLOBALFOUNDRIES' innovations have helped drive the evolution of four generations of wireless communications that connect over 4 billion people. Our collaboration with Raytheon Technologies is an important step to ensuring the development and manufacturing capability of solutions for critical future 5G applications,” said GF CEO Tom Caulfield. “This partnership will enable everything from AI-supported phones and driverless cars to the smart grid, as well as governments’ access to data and networks which are essential to national security.”
https://gf.com/press-release/raytheon-technologies-and-globalfoundries-partner-accelerate-5g-wireless-connectivity
GlobalFoundries currently offers the most advanced silicon photonics foundry services with their 90 Wave Guide (WG) technology. This technology is actively used within datacenter interconnects, 5G remote radio heads, and telecom. Most of the volume is using 1310nm wavelength light for inside the datacenter and long range at 1550nm wavelength light. They are rapidly seeing advances in other areas such as photonic computing, ToF sensors, Lidar, and aeronautics.......
cont'd...
While GlobalFoundries has given up on chasing Moore’s law, they have not stopped being a leading-edge foundry. They continue to push the bleeding edge of technology in many other ways. While others focus on generational density and power improvements in computing with electrons in traditional logic process technologies while ignoring, GlobalFoundries is attacking industry wide scaling problems. Their fully depleted silicon on insulator and gallium nitride on silicon technologies are at the forefront of high efficiency and performance radio technologies with the capabilities to drive higher performance and tolerate higher heat and power requirements. Their silicon photonics technologies are the start of a paradigm shift by changing the core element of computers and wired communications from electrons to photons. Their 3D and heterogenous integration expertise allow the combination normal logic, low power FDX, radio optimized, photonics, InP, and SiN technologies to all be integrated into a single innovative solution that utilizes the best technologies for application demands. Due to this advanced technology, Global Foundries is a leading-edge foundry that beats out others such as TSMC, Intel, and Samsung.
TSMC launches advanced packaging for silicon photonics applications
Julian Ho, Taipei; Willis Ke, DIGITIMES
Tuesday 31 August 2021
TSMC has introduced its new advanced packaging technology dubbed COUPE (compact universal photonic engine) heterogeneous integration technology for silicon photonic ASICs targeting the datacenter market, according to industry sources.
https://www.digitimes.com/news/a20210831PD201.html
********
Optimized Photonics: Efficient Computing to Quantum Processors
https://www.samsung.com/us/ssic/session/optimized-photonics-from-efficient-computing-to-quantum-processors/
I see, thx for clearing that up:)
I think it was actually Steve S. who coined the phrase "green photonics"...:)
Conference Chairs Michael Lebby & David Cheskis Lumentum
Michael Lebby
CEO
Lightwave Logic Inc
Presently, Michael is driving new frontiers in the integrated photonics field as: CEO and Board Director, Lightwave Logic Inc. Michael is also part-time full Professor and Chair of optoelectronics at Glyndwr University in Wales, UK where he contributes to the European Commission’s programs and pilot lines in integrated photonics. Michael has been involved in photonics for his whole career which began with research for the UK Government R&D labs in 1977, and continued at AT&T Bell Labs in 1984. At that time, Michael’s activities included researching novel optoelectronic devices in III-V compound semiconductors. Michael then went to Motorola’s Corporate R&D labs in 1989 and drove the VCSEL based technology platform to product and high volume manufacturing. He continued his fiber optics roles at AMP/TE Connectivity, and then helped initiate Intel’s silicon photonics work in 1999. In 2001, he founded his own company Ignis Optics to develop OC-48/192 transceivers and subsequently sold the company to Bookham (now Oclaro). Michael then led OIDA (Optoelectronics Industry Development Association) in Washington DC to campaign on behalf of the photonics industry. At OIDA Michael coined the term ‘green photonics’ and established this as discipline in the industry. Michael also spoke on Capitol Hill representing the optoelectronics industry. Since 2010, Michael has been focusing on bringing PIC (Photonic Integrated Circuit) based technologies to market in various roles that include Solar, LED lighting, and Integrated Photonics for fiber communications. Michael is pursuing high speed polymer based integrated photonics as part of a polymer PIC platform at Lightwave Logic Inc.
https://picinternational.net/speakers
28TH – 29TH JUNE, 2022, BRUSSELS, BELGIUM
Among scheduled speakers:
Refining and streamlining PIC production
The role of PICs in the data communication roadmap
Jim Theodoras
HG Genuine
TOKYO -- Taiwan Semiconductor Manufacturing Co. , the world's largest contract chip maker, said it would increase its investment to boost production capacity by up to 47% this year from a year earlier as demand continues to surge amid a global chip crunch.
TSMC said Thursday that it has set this year's capital expenditure budget between $40 billion to $44 billion , a record high, compared with last year's $30 billion .
As a pandemic-fueled surge in demand for various devices requiring semiconductors has created widespread shortages, major chip makers have been on an investment spree to raise production capacity.
TSMC, Samsung Electronics Co. and Intel Corp. -- three of the world's biggest chip makers -- accounted for nearly three-fifths of $146 billion that semiconductor companies around the world spent in 2021 to build new production capacity and develop new technologies, according to an estimate by research firm Gartner Inc.
Demand from sectors like high-performance computing devices and automotives would keep the company's manufacturing capacity utilized at a high rate, TSMC's Chief Executive C.C. Wei said in an quarterly earnings call on Thursday.
The trend of various products or sites, such as cars or data centers, using more semiconductors will continue to drive demand for TSMC's chips, Mr. Wei said. "In many devices, it is increasingly the silicon content that is a more important factor in supporting strong semiconductor demand," he said.
This year, TSMC's revenue is likely to grow by at least around 25% from a year earlier, he said. That would outperform the average growth pace of about 20% that TSMC forecasts for the contract-chip-making industry, known as foundries, he said.
About half of the company's chip sales comes from the advanced technology semiconductors that it produces for its clients, including Apple Inc.
TSMC is now increasing investments into capacities to build less-advanced chips based on older production technologies. Those chips, widely used in cars, smartphones and other devices, became a supply chain bottleneck last year, including for Apple.
Mr. Wei called such products a "sweet spot" for the company's longer-term strategy. Production lines for these less-advanced chips aren't as expensive, while TSMC's technology to build these chips are specialized, making it hard for rivals to replace those semiconductors, industry experts say.
TSMC said revenue from its automotive-related operations, which grew by 51% last year from a year earlier, is expected to be among its fastest-growing business this year. The auto sector is among the hardest hit from global chip crunch.
TSMC increased its auto chip production by about 60% in 2021, but it still only accounts for 4% of its annual revenue. Around 44% of its revenue comes from the smartphone business.
Some analysts have raised concerns over possible overcapacity for less advanced chips, but Mr. Wei said that he is confident the company can avoid that given the robust demand for its semiconductors.
Hsinchu, Taiwan -based TSMC is building a new $12 billion plant in Phoenix and a $7 billion plant in southern Japan . It has also said it plans to expand capacity in the eastern Chinese city of Nanjing , as well as in Taiwan . The company is currently assessing the feasibility of a new fabrication plant in Europe , Chairman Mark Liu said on the call.
Rivals are also aggressively expanding capacity. Samsung Electronics announced a $17 billion investment in Taylor, Texas , in November, while Intel recently pledged to build new chip-making facilities in Europe valued at up to $95 billion .
In 2021, TSMC posted a record revenue of 1.59 trillion New Taiwan dollars , equivalent to $57 billion , up 18.5% from a year earlier. Its fourth-quarter net profit rose 16.4% from the same period a year earlier, driven by strong demand from 5G applications, high-performance computing devices, and automotive electronics.
For January-March, TSMC said it expects to post revenue between US$16.6 billion and US$17.2 billion , up 28% to 33% from the same period a year ago.
Off topic:
TSMC ups Capex budget to something like $40-$44B for 2022' up from $31B spend in 21' (not an exact quote) but point being demand for chips is off the charts!
Technological tsunami heading our way. noblynx, don't go all apocalyptic on me again...:))
LWLG's timing could not be better!
3:55 mark "the chip industry is about a $500T (with a T) business, and it took 40 or 50 years to get there, and the pace it's going right now, we think in the next 8 or 9 years you'll actually have to double that"
That's profound, what took 40-50 years to achieve $500T will be duplicated in the next 8 or nine years. So if you double $500T you arrive at a Quadrillion dollar TAM!!!
What's after trillion? Trillion is a 1 with 12 zeros after it, and it looks like this: 1,000,000,000,000. The next named number after trillion is quadrillion, which is a 1 with 15 zeros after it: 1,000,000,000,000,000.
Technological tsunami heading our way guys.
@GlobalFoundries 15m
"Chips are vital to every aspect of modern life," GF's Mike Hogan explains on @Newsy's “The Why.” Hear more about GF's feature-rich chips, global investments & auto partnerships that are accelerating the next wave of innovation in automotive chip design:
Interview with Sr VP Mike Hogan Global Foundries (about 3:15 mark)
slide 12 ...Investor Presentation Oppenheimer 5G Summit 14th Dec 2021
Future Applications
• Potential development of new polymer materials for specific non-communication applications such as: LIDAR automotive, sensing, displays, high speed computational processing, crypto, medical, and areas where light needs to be switched quickly at low power
https://api.mziq.com/mzfilemanager/v2/d/307dbc8b-e212-48ba-9968-8cef3f6b5188/aa626910-4727-a1d1-8ff2-f5079668be30?origin=2
I like to think so, pretty sure speed and low power could come in handy for next gen bitcoin mining microchips based on "custom silicon"!
Anyone have Jack's ear?....;)
January 11, 2022 08:35 AM ET (BZ Newswire) --
Cryptocurrency
Block, Inc (NASDAQ:SQ), formerly known as Square Inc, is looking into building its own Bitcoin mining ASIC (application-specific integrated circuit).
What Happened: According to a recent LinkedIn job posting, Block is looking to hire a custom digital design lead to join the team that will help build the “next generation” of microchips used to mine Bitcoin.
In a series of tweets in October 2021, Block CEO Jack Dorsey touched on some of the key features that would be included in the open-source Bitcoin mining system based on custom silicon.
“Mining needs to be more distributed. The core job of a miner is to securely settle transactions without the need for trusted 3rd parties. This is critical well after the last bitcoin is mined. The more decentralized this is, the more resilient the Bitcoin network becomes,” stated Dorsey at the time.
Why It Matters: The demand for mining Bitcoin coupled with strained supply chains and a shortage of chips across the globe has led to the massive surge in prices of ASICs (application-specific integrated circuits).
Compass Mining’s Zack Voell estimates that ASIC prices jumped over 25% at the start of Q3 2021. “Obviously, whichever direction bitcoin’s price goes, ASIC prices will follow,” wrote Voell.
Dorsey’s aim with Block’s Bitcoin mining system will be to make mining more accessible to everyone. According to the Block CEO, “Bitcoin mining should be as easy as plugging a rig into a power source.”
Price Action: As of Tuesday morning, Bitcoin was trading at $41,946.45, gaining 2.13% in the last 24 hours.
Expanding the Ecosystem for Hybrid Bonding Technology
by Nirmalya Maity, Ph.D.
Jan 10, 2022
"A key part of our strategy at Applied Materials is to be the PPACt enablement company™ for our customers. We offer the broadest portfolio of products that deliver improvements in chip power, performance, area, cost and time-to-market. As traditional Moore’s Law scaling slows and becomes more expensive, new design and manufacturing paradigms are being adopted by chipmakers and systems companies to advance their PPACt roadmaps. A prime example is the increasing use of heterogeneous design and advanced packaging solutions."
https://blog.appliedmaterials.com/expanding-ecosystem-hybrid-bonding-technology
IMO, it's inevitable that ML will need to have a meeting with AMAT at some point.
I never get tired of watching this corp. video...
"IT'S THE SOLUTION THAT DATA COMMUNICATIONS AND
TELECOMMUNICATIONS MARKETS DESPERATELY NEED"
2:30 min
tic-tock, tic-tock....
Crazy right? Can see why it can take up to 3 months for the wafers to be engraved and printed...
"reticles" is a new word in my vocabulary...
"Chip designs come from glass plates known as reticles.
Features on the reticle are transferred to the wafers
using light."
Very cool, high quality image slide show from inside GF Malta, NY fab.
https://www.wsj.com/story/there-arent-enough-chips-why-are-they-so-hard-to-make-3e29c7e0
Wow!!
"The LWLG patents show 4-8 modulators per transceiver. So in a single hyper scale data center, we’re talking up to 400,000 to 800,000 modulators."
I believe I misread, was thinking float in terms of # of o/s not $$ amount...still very excited for this year 10K!
I'm very eager to read the Annual Report 10-K 2021 FY this year, last's years filing date was 3/31/21. If I'm correct, this year's 10-K will be no later than 3/15/22 ish... and If I'm understanding this correctly, It appears that LWLG qualifies as an "accelerated filer" due to the float...
Accelerated Filer
An accelerated filer is an issuer that:
? Has a public float of at least $75 million but less than $700 million as of the last business day of the most recently completed second fiscal quarter;
? Has been subject to the 1934 Act’s reporting requirements for at least 12 calendar months;
? Previously has filed at least one annual report on Form 10-K; and
?Is not eligible to use the scaled disclosure requirements for smaller reporting companies for Forms 10-K and 10-Q.
An Accelerated Filer must file its annual reports on Form 10-K within 75 days after their fiscal year-end and file its Form 10-Q within 40 days after each quarter
https://www.securitieslawyer101.com/2015/form-10-k-deadlines/
Dare I say Mon. 2/28/22 or Tues. 3/1/22...?
Excellent forztnt2, thank you for that update!