As is everyone born between 1965 and 2015, which is quite a few people.
As is everyone born between 1965 and 2015, which is quite a few people.
Rabbits engage in coprophagy to extract more nutrients using their short digestive tracts. Is this analogous to training ML models on AI-generated output?
Hello, future people!
Yeah, that’s the name of the character, but not the comic strip.
Where is paid_not_payed bot when we need them?
I tried some of the popular jailbreaks for ChatGPT, and they just made it hallucinate more.
Holy crap what is that website. Cant read shit.
Here you go:
Insulated blue light-emitting diodes could banish OLED burn-in for good
News
By Aaron Klotz
published 22 hours agoThis new design change could kill off burn-in, reduce manufacturing complexity, and reduce power consumption in future OLED TVs and monitors.
OLED technology is quickly gaining traction in the PC market and powers some of the best gaming monitors. However, the Achilles heel of OLEDs has always been its burn-in, which inevitably reduces the lifespan of OLED monitors and TVs. No one has been able to fully rectify this issue. However, a new OLED design philosophy created by researchers at the University of Cambridge and reported by Nature has the potential to kill off burn-in for good.
To address this, the University of Cambridge has developed a new OLED design that better controls the light from a blue-light-emitting diode and reduces its power consumption. The blue light-emitting diodes are covalently encapsulated by insulating alkylene straps.
OLED burn-in is generated by the emission of unstable and inefficient light from the blue-light-emitting diode in an OLED display. As a result, putting an insulating material over the blue light diode specifically helps reduce the instability of the blue light protecting the display from potential burn-in issues that could occur.
“Here we introduce a molecular design where ultranarrowband blue emitters are covalently encapsulated by insulating alkylene straps,” reads the Cambridge research paper. “Organic light-emitting diodes with simple emissive layers consisting of pristine thermally activated delayed fluorescence hosts doped with encapsulated terminal emitters exhibit negligible external quantum efficiency drops compared with non-doped devices, enabling a maximum external quantum efficiency of 21.5%.”
This new “paradigm” shift in OLED technology has several positive knock-on effects that will further simply the manufacturing process of OLED displays. Current OLED displays use several layers of specialized materials to help reduce burn-in effects, but the introduction of insulated blue light-emitting diodes means that many of these layers can be deleted entirely from an OLED display, reducing manufacturing costs. This new design is also more power efficient, which should lead to more power-efficient OLED monitors and TVs in the future.
If this new OLED design change proves successful, OLED displays will finally be free from the burn-in issues the technology has had since its inception. Displays could run practically forever and not succumb to any brightness changes or designs “sticking” to the screen.
However, this technology is still in the research phase, so it will take time before we see this design methodology shift to the manufacturing phase, where OLED displays are manufactured with this new design in mind.
“Computer? Computer? Hello, computer?”
Is there a Lemmy equivalent yet?
It went from Twitter to Xitter to Xittier.
Beyonce rule?
that ended up working better anyway
Not sure if it ended up working better, as it landed with nonzero horizontal velocity. Though I suppose we’ll never know how well the original system would have performed…
It was intended to be an orbiter.
Throw the 4L bag in the fridge. Remove one of the three inner 1.3 L bags, and place it in the dedicated milk bag holder that every household has:
Snip the corner, pour yourself a glass, and enjoy!
*scrape…*
Update: I found a partial solution using Nitter and the Link Gopher Firefox extension.
Using a public Nitter instance, one can visit an account page, jump to the bottom, click “Load more”, and use Link Gopher’s “Extract Links by Filter” tool to extract all links of the form https://nitter.freedit.eu/SpaceX/status/
. This method allows one to collect 20 links at a time. It’s still a bit more work than I would ideally like, but better than trying to find and copy each tweet URL manually. Also not sure how much longer this method will work given that public Nitter instances will likely stop working soon.
Except that customer explicitly ordered “none pizza with left beef”, and was presumably delighted that their instructions were followed so exactly.
Happy cake day!