What is the cheapest and easiest way of using Nvidia's 3D Vision Kit on a 2x2 multi-monitor setup in Full-Screen mode??
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
What is the cheapest and easiest way of using Nvidia's 3D Vision Kit on a 2x2 multi-monitor setup in Full-Screen mode??
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
What is the cheapest and easiest way of using Nvidia's 3D Vision Kit on a 2x2 multi-monitor setup in Full-Screen mode??
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
What is the cheapest and easiest way of using Nvidia's 3D Vision Kit on a 2x2 multi-monitor setup in Full-Screen mode??
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...
3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...
"AIO": Intel Xeon E5-2690 v2 @ 103.2 MHz BCLK | ASUS X79-Deluxe | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push-Pull | 64 GB G.Skill PC3-12800 @ 1924 MHz | NVIDIA RTX 2070 FE | LG 25UM56 UW Monitor | Plextor 1TB PX-1TM9PeY PCIe NVMe (Windows 10 Pro x64 1809) | Plextor 1TB PX-1TM9PeY PCIe NVMe (UserData) | 4x SanDisk 500 GB SSDs in Marvell SATA3 RAID0 (C:\Games) | 2x WD 250 GB SSDs and WD 3 TB RED HDD in Marvell HyperDuo RAID (Media) | 16 GB RAMDisk (Temp Files) | WD My Book Essentials 3 TB NAS (Archives) | LG BP50NB40 ODD | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...
3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...
"AIO": Intel Xeon E5-2690 v2 @ 103.2 MHz BCLK | ASUS X79-Deluxe | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push-Pull | 64 GB G.Skill PC3-12800 @ 1924 MHz | NVIDIA RTX 2070 FE | LG 25UM56 UW Monitor | Plextor 1TB PX-1TM9PeY PCIe NVMe (Windows 10 Pro x64 1809) | Plextor 1TB PX-1TM9PeY PCIe NVMe (UserData) | 4x SanDisk 500 GB SSDs in Marvell SATA3 RAID0 (C:\Games) | 2x WD 250 GB SSDs and WD 3 TB RED HDD in Marvell HyperDuo RAID (Media) | 16 GB RAMDisk (Temp Files) | WD My Book Essentials 3 TB NAS (Archives) | LG BP50NB40 ODD | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
[quote name='jaafaman' post='1106941' date='Aug 21 2010, 01:33 PM']3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...[/quote]
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
[quote name='jaafaman' post='1106941' date='Aug 21 2010, 01:33 PM']3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
[quote name='jaafaman' post='1106941' date='Aug 21 2010, 01:33 PM']3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...[/quote]
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
[quote name='jaafaman' post='1106941' date='Aug 21 2010, 01:33 PM']3D Surround, and even Surround itself, is limited to 3 monitors tops from the drivers. The configuration you wish is only possible through third party hardware video splitters...
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
[quote name='john key' post='1106945' date='Aug 21 2010, 08:38 AM']Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?[/quote]
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
[quote name='john key' post='1106945' date='Aug 21 2010, 08:38 AM']Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
"AIO": Intel Xeon E5-2690 v2 @ 103.2 MHz BCLK | ASUS X79-Deluxe | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push-Pull | 64 GB G.Skill PC3-12800 @ 1924 MHz | NVIDIA RTX 2070 FE | LG 25UM56 UW Monitor | Plextor 1TB PX-1TM9PeY PCIe NVMe (Windows 10 Pro x64 1809) | Plextor 1TB PX-1TM9PeY PCIe NVMe (UserData) | 4x SanDisk 500 GB SSDs in Marvell SATA3 RAID0 (C:\Games) | 2x WD 250 GB SSDs and WD 3 TB RED HDD in Marvell HyperDuo RAID (Media) | 16 GB RAMDisk (Temp Files) | WD My Book Essentials 3 TB NAS (Archives) | LG BP50NB40 ODD | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
[quote name='john key' post='1106945' date='Aug 21 2010, 08:38 AM']Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?[/quote]
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
[quote name='john key' post='1106945' date='Aug 21 2010, 08:38 AM']Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
"AIO": Intel Xeon E5-2690 v2 @ 103.2 MHz BCLK | ASUS X79-Deluxe | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push-Pull | 64 GB G.Skill PC3-12800 @ 1924 MHz | NVIDIA RTX 2070 FE | LG 25UM56 UW Monitor | Plextor 1TB PX-1TM9PeY PCIe NVMe (Windows 10 Pro x64 1809) | Plextor 1TB PX-1TM9PeY PCIe NVMe (UserData) | 4x SanDisk 500 GB SSDs in Marvell SATA3 RAID0 (C:\Games) | 2x WD 250 GB SSDs and WD 3 TB RED HDD in Marvell HyperDuo RAID (Media) | 16 GB RAMDisk (Temp Files) | WD My Book Essentials 3 TB NAS (Archives) | LG BP50NB40 ODD | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
Do i use 4 seperate GPU's?
Do i use GPU's in a SLI configuration?
Can i use a software based desktop spliter to split the one screen into 4 parts and send them individually to 4 individual gpu's?
What about a video wall controller accepting one input and displaying 4 outputs?
I have looked around but i havn't found topics on a 2x2 multi-monitor setup while using 3D Vision in full screen mode
The point of this is to use 4 Acer 5630 projector's to make one large screen. The reason i want this is because the screen size i want is quite large and the projector is only 720p native. By using 4 projectors i can have a large screen @ 2560x1440 (2x2 configuration) it will act like a upscaler. It will help make the pixels denser. Having 1280x720 spread across a 200" screen looks horrible compared to the same resolution projected onto a quadrant of the same 200" screen (50") i can handle 720p spread over a small 50" space.
I have looked at a couple of ideas but not entirely sure how it will all work with 3D Vision. Most video wall controllers which accept one input and splits 4 outputs usually dont output the same resoultion @ 120hz so that limits what products i could use making things harder and more expensive. I dont know how using a software based desktop splitter would work with 3D Vision. It would send 4 split parts to 4 different GPU's but how does each GPU know when to sync with the other 3 GPU's aswell as syncronizing all parts together with the infrared reciever and glasses? or is that where SLI could come in?
Im worried that by using software and 4 seperate GPUs that only one quadrant would be sync'd and work in 3d with the glasses when the other 3 quadrants might not be in sync and refresh at a few milliseconds out from the reciever/glasses.
Any ideas guys?
The 3D Vision Kit would only be used for movies run through powerDVD 10 on a windows 7 system. I will never use it for gaming or CPU/GPU crippling applications like 3D rendering etc.
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
Stock is Extreme now
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
Stock is Extreme now
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
Yea i know that, thats why i have asked for peoples ideas. 3D surround is not what im after- clearly. Its not a 2x2 configuration. Its a 1x3 configuration. Anyone else have good ideas?
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
Stock is Extreme now
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
In case you can't figure it out, I'm eliminating your considerations down to what's possible. You need to concentrate on the third-party solutions with the possibility of running SLI as single-screen output feeding that solution. There certainly are folks here who can input suggestions, and some of them even have experience supporting those third-party solutions with SLI.
Depending on the grand resolution, you may not need more than two GPUs teamed for the single output, model-dependent. Even at that, since you're not using it for gaming but rather 3D movies, most of these apps don't have multi-GPU support enabled anway. So this pretty much narrows down your GPU choices to the largest, most powerful you can afford - which is certainly less expensive than the multiples you asked about...
"Gaming": Intel Xeon E5-1650 v2, Turbo 44x (5-6), 45x (3-4), 46x (1-2) | ASUS Rampage IV Extreme | SwifTech Apogee Drive II Pump and Block | 120 mm + 240 mm Push/Pull | 32 GB G.Skill PC3-12800 @ 1866 MHz | NVIDIA GTX 1080 FE | NVIDIA GTX 970 RE | Samsung U28E510 UHD | 2x PNY 480 GB SSDs in Intel SATA3 RAID0 (OS) | Plextor 1TB PX-1TM9PeY PCIe NVMe (Disk Games) | 4x PNY 240 GB SSDs in Intel SATA2 RAID0 (On-Line Games) | eVGA Supernova G+ 1000 W PSU | Cooler Master HAF-XB | Windows 10 Pro x64 1809
Stock is Extreme now