Re: Lightwave 3d 10 Mac Crack Torrent
Gro Bert
When I create a model (for instance a simple cube (1cm x 1cm x 1cm)), preform opens the model and resizes the cube to 2cm x 2cm x 2cm according to the Preform grid because the model it loads is waaay to small to print.
Normally you would say, wel scale the model to 1m x 1m x 1m in lightwave which would be the same as 1cm in Preform, however, when loading anything else than a cube, it scales it differently. I had a cilinder-type shape which was 1cm in diameter and was scaled up 1538x which was exactly 2cm in diameter according to the preform grid.
I am concerned that in the event of an internet outage (very common for us, yay 1Mb ADSL), all of my automations would break. I think if the automations are setup on the local hub, they will probably work in the event of a network outage (I need to test this today).
Node-RED example:
Push the up button three times (code 259) initiates my robot vacuum for that particular room and push the down button three times (code 4355) will send the vacuum back to the docking station.
EDIT: Forgot to mention, you have to have both dimmers set as a master - with only one of the dimmers actually operating the light (Master) the other dimmer (Slave) will have nothing connected to its channel.
Another way to do this is to just use buttons as controllers for HA actions? I.e, rather than actually dimming the light, I would like it to send a command to HA which in turn could then tell my hue bulbs to turn off. Not sure if this is possible though?
How do you remove obsolete devices? For example I had a number of the Lightwave radiator controls (LW922) however I have replaced them with the Honeywell options. Even though the old LW922 are deleted from the Lightwave app - they still show in HA. Restart finds new devices but never removes the old.
I have been testing the use of lightwave2.set_brightness. This works well on single dimmers however on a double (L22MK2) using this service call on the 2nd channel causes the 1st channel to also change brightness. Is this something that i am doing wrong?
Any changes to the FBX (lightwave scene assets) will only be stored in Unity, so this is a Uni-directional pipeline, but Unity will remember any material assignments and properties applied to the FBX scene even if you update from LightWave
ENGLEWOOD, Colo., Dec. 4, 2023 /PRNewswire/ -- 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, today issued a letter to shareholders from its Chairman and Chief Executive Officer, Dr. Michael Lebby.
We signed a four (4) year material supply and license agreement for Perkinamine in May 2023 with a company designing and providing polymer based photonic devices and photonic integrated circuits (PICs). We believe this agreement demonstrates tangible commercial progress for electro-optic polymers as well as market acceptance. We made significant progress throughout the year, with delivery of material to support our licensee.
Per the terms of the non-exclusive material supply and license agreement, the licensee shall pay Lightwave Logic a running royalty with a minimum royalty paid on an annual basis over the term of the License Agreement. Revenue will be generated from royalties from the licensee's sale of licensed products.
In addition to this first licensee, we continue to receive strong interest from other potential customers in our innovative device platform and licensing our technologies. We are working hard to close additional commercial agreements by year end, but since, these are long deliberate processes, we can't guarantee that we will do so. We are presently working with a wide spectrum of companies including multinational tier-1 corporations which manufacture data communications network equipment. Several tier-1 manufacturers have also requested to meet and test our polymer modulators, while fiber optic transceiver companies have expressed interest in learning how to implement our polymer modulators into their ongoing 800G transceiver development programs. Also of note, we are planning to implement our PIC designs using commercial semiconductor foundries for multi-channel polymer modulator engines, including 4 channel solutions for 800G. We believe these constructive discussions are positioning us to capitalize on our momentum with additional licensees as we continue to build excitement around our technology.
During the year we aligned operations with our commercial business plans with a significant laboratory expansion to support volume scale of our EO chromophore materials and new commercial activity. We completed new laboratory production facilities, expanding the corporate facility in Englewood, Colorado by nearly 10,000 square feet for a total of approximately 23,500 square feet. The renovations and installation of new laboratory and engineering facilities expands the size of our facility by over 65%, enabling commercial device testing and evaluation, product reliability testing, high speed optical characterization, SEM analysis and the expansion of our chemical synthesis production line. The facilities are being utilized to provide Perkinamine chromophore materials for polymer based photonic devices and PICs, and the multiple requests for our prototypes.
To support our commercialization advancement, we added several new key team members in 2023. At the staff level, these new team members included organic chemists as well as additional photonics design, packaging, reliability engineers, and finance personnel to further enhance our in-house capabilities.
At the Board level, the Board of Directors appointed respected industry executive Laila Partridge to the Board. Laila brings a 30+ year track record of executing transactions in the technology space. Her knowledge of both the fiber optic communications markets as well as non-communications markets (such as artificial intelligence, consumer, display, sensing, medical, biotech, etc.) will help us hone business strategies for growing our electro-optic polymer business.
We continued to fortify our intellectual property portfolio in 2023 with two new U.S. patents issued and one patent allowed, and expected to be issued in the near future. In addition, we had a further six patent applications published, outlining new inventions to further improve our technology offering. One notable patent issuance was for continued advanced chemical structural design and process that enhances the overall efficiency of poling non-linear organic optical chromophores while simultaneously improving thermal and photostability above what is already an acceptable performance. Finally, we received a patent for a cutting-edge design technique, enhancing the performance of polymer modulators through the use of an innovative polymer cladding design that is amenable for high-volume foundry fabrication when integrated with silicon photonics. This allows our proprietary polymers to perform more effectively and to be fabricated by silicon foundries in a high-volume manufacturing environment.
Taken together, these new patents showcase the depth of our achievements to the industry and position us for ubiquity. We continue to file patents to strengthen our position in the areas of organic chemistry, polymer device fabrication and design, and polymer device packaging.
Beyond patents for our technology, we also made several incredible achievements from a performance perspective. Our latest commercial-class EO polymer material achieved breakthrough performance metrics at 1310 nanometers (nm), a wavelength popular in hyperscale datacenter applications. The achievement of these results at the 1310nm bandwidth positions us well for potential near-term licensing opportunities in datacenter applications. We also achieved record optical modulator performance using our latest Perkinamine Series 5 material at extremely low cryogenic temperatures, delivering the potential to revolutionize applications in supercomputers, quantum circuits and advanced computing systems.
These industry conferences not only provide an opportunity to evangelize the benefits of our platform to industry leaders, but also serve as forums to hold constructive meetings with decision makers at our target customer companies. At these meetings we receive insight on where end-users are heading and what performance they are looking for from polymer modulator technologies, and we have received multiple requests for prototypes and licensing inquiries as a result.
During 2023, we positioned ourselves to show value for internet and optical network operators in the growing artificial intelligence (AI) markets. We have seen that our technology platform dovetails perfectly with the increased generation of information and data that needs to be communicated using fiber optic interconnects and datacenters in general. We all are aware that AI has been integrated deeper within our daily activities with applications to make us more efficient and possibly smarter. The impact on the internet is huge, and the internet is based on an optical network that utilizes data centers to route and switch traffic or information to and from destinations.
Data centers are being upgraded today in a fashion that the industry has not seen before. The expected demands of increased traffic, information, and data driven by AI is changing the way the internet is being operated. AI is now creating new and interesting market opportunities to upgrade the internet. Three of these are important today: density, speed, and low power and these are very well aligned with our high performance electro-optic polymers. We are designing high performance polymer modulator optical engines to support the rise and growth of AI as it generates more information that will travel through the internet and optical networks.
I will be hosting a fireside chat today with the hosts of the Benzinga All-Access show to discuss this shareholder letter, recent milestone achievements and potential near-term catalysts. Webcast details are shown below.
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