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- 06.07.2018
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Ako bih kupio gtx 1070 koja tjera igrice na više od 60 fps-a ne bi time dobio ništa jer je moj monitor ograničen na 60 Hz tj 60 fps-a.
Jel to tačno ili grešim?
Jel to tačno ili grešim?
Ako bih kupio gtx 1070 koja tjera igrice na više od 60 fps-a ne bi time dobio ništa jer je moj monitor ograničen na 60 Hz tj 60 fps-a.
Jel to tačno ili grešim?
Da naravno...susreo sam se sa tim monitorima od 144. Koristim monitor od 75Hz trenutno a imam i od 60Hz.Gluposti, i 75Hz je ogroman napredak u odnosu na 60Hz, 144Hz je prica za sebe sto se fluidnosti tice. Takodje je to sa "fizioloske" strane apsolutno netacno.
VSync je nesnosan, previse input lag-a donosi. Ko hoce da se igra bez tearing-a, FreeSync ili GSync su jedina normalna opcija.
Jesi li ikad u zivotu seo pored 144Hz monitora?
First of all, the core statement is a nonsense. There have been many reports from different reaction tests that people can react to visual signals in less than 1 ms - this corresponds to 1000 FPS.
Now, where did this myth about "60 FPS" came from in the first place? Most LCD monitors today, let alone 10 years ago, have refresh rate of 60 Hz. On such monitor, no matter how much FPS your application, such as video game, has, you will see only 60 Hz, and additional frames will be ignored. On such monitor, even if your game has 1000 FPS, you will still essentially see 60 FPS.
First of all, the core statement is a nonsense. There have been many reports from different reaction tests that people can react to visual signals in less than 1 ms - this corresponds to 1000 FPS.
Edit:Myelinated nerves can fire between 300 to 1000 times per second in the human body and transmit information at 200 miles per hour. What matters here is how frequently these nerves can fire (or "send messages").
The nerves in your eye are not exempt from this limit. Your eyes can physiologically transmit data that quickly and your eyes/brain working together can interpret up to 1000 frames per second.
However, we know from experimenting (as well as simple anecdotal experience) that there is a diminishing return in what frames per second people are able to identify. Although the human eye and brain can interpret up to 1000 frames per second, someone sitting in a chair and actively guessing at how high a framerate is can, on average, interpet up to about 150 frames per second.
Ako ima nVidiju ukljuci fastsync pa ce raditi i preko 60fps i nece biti cepanje slike
Kad si ostao bez i jednog argumenta, a inace su argumenti bili neosnovani i apsolutno netacni, napisao si da nema polemike?
Zanimljivo
https://youtu.be/m0xyY5SRUgI
Evo kako ljudsko oko vidi u stvarnosti, oftamolozi potvrdili, 15 ili 30 fps. Onda smo mi sto vidimo "normalno", a ne slideshow, blagosloveni.
I have done academic courses on cognitive neuroscience at the university of Utrecht (Netherlands). It all depends on the training a person has had. Fighter pilots have been recorded spotting 1/255th of a frame. That's right: 255 frames per second And they could give a rough estimate as to what they've seen.
Myelinated nerves can fire between 300 to 1000 times per second in the human body and transmit information at 200 miles per hour. What matters here is how frequently these nerves can fire (or "send messages").
The nerves in your eye are not exempt from this limit. Your eyes can physiologically transmit data that quickly and your eyes/brain working together can interpret up to 1000 frames per second.
However, we know from experimenting (as well as simple anecdotal experience) that there is a diminishing return in what frames per second people are able to identify. Although the human eye and brain can interpret up to 1000 frames per second, someone sitting in a chair and actively guessing at how high a framerate is can, on average, interpet up to about 150 frames per second
First of all, the core statement is a nonsense. There have been many reports from different reaction tests that people can react to visual signals in less than 1 ms - this corresponds to 1000 FPS.
U tom kontekstu, ljudsko oko moze videti do 1000 slika u sekundi, naucno dokazano. Mozda u nekom drugom moze 15-30, videcemo vec.Monitor do 60Hz pokriva spsobnost ljudskog oka
Aj kad se već i u medicinu razumete, neka mi neko objasni zašto meni 60FPS pravi problema u vidu blage vrtoglavice?
Nisam imao prilike da isprobam veći FPS pošto na mojoj mašini teško i 60FPS može da drži u dovoljnom kontinuitetu, a i monitor mi je 60Hz, ali npr. YouTube gledam isključivo u 30 FPS pošto kada pustim 60 FPS na bilo kom ekranu (tako da je taj faktor isključen) veoma brzo osetim neprijatnost u očima, a posle par minuta i vrtoglavicu.
Ako je od značaja imam dioptriju skoro -2 i blago sporiji + sužen fokus. Možda je upravo zbog ove dve zadnje stavke, a malo mi je glupo da pitam optičara. Hahaha.
Ahahahahaha! Good one!Mozda se javi neki kloker da ti da precizne odgovore..., sacekaj par dana. Reci ce ti kako da overklokujes oci i centar za ravnotezu da bi eliminisao vrtoglavice.
Samo je neverovatno da on i dalje troluje i da misli da je u pravu, a da jos ni jednu konkretnu stvar nije napisao osim "ja sam studirao medicinu, tako su mi rekli" :dThe human visual system can process 10 to 12 images per second and perceive them individually, while higher rates are perceived as motion.[1] Modulated light (such as a computer display) is perceived as stable by the majority of participants in studies when the rate is higher than 50 Hz through 90 Hz. This perception of modulated light as steady is known as the flicker fusion threshold. However, when the modulated light is non-uniform and contains an image, the flicker fusion threshold can be much higher, in the hundreds of hertz.[2] With regard to image recognition, people have been found to recognize a specific image in an unbroken series of different images, each of which lasts as little as 13 milliseconds.[3] Persistence of vision sometimes accounts for very short single-millisecond visual stimulus having a perceived duration of between 100 ms and 400 ms. Multiple stimuli that are very short are sometimes perceived as a single stimulus, such as a 10 ms green flash of light immediately followed by a 10 ms red flash of light perceived as a single yellow flash of light.[4]
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