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9th March 2021, 19:50 | #1 | Link |
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Join Date: May 2010
Posts: 134
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upgrade pc for bdrebuilder
hi guys
i need help for upgrade my pc MOTHERBOARD CPU IF NECESSARY RAM VIDEO CARD NO GAMING Only backup with bdrebuilder now with my pc backup from uhd original to bd25 necessary 50 hours with 2 pass Operating System Windows 7 Ultimate 64-bit SP1 CPU Intel Core i7 940 @ 2.93GHz 51 °C Bloomfield 45nm Technology RAM 6,00GB Triple-Channel DDR3 @ 539MHz (8-8-8-20) Motherboard ASUSTeK Computer INC. P6T (LGA1366) 42 °C Graphics Acer AL1916W (1440x900@60Hz) 1024MB ATI AMD Radeon HD 5800 Series (Sapphire/PCPartner) 36 °C Storage 111GB Samsung SSD 850 EVO 120G (SATA (SSD)) 30 °C 232GB Western Digital WDC WD2500AAKS-00C9A0 (SATA ) 39 °C 279GB Maxtor 6V300F0 (SATA ) 41 °C Optical Drives HL-DT-ST BD-RE BH10LS30 Audio Realtek High Definition Audio Operating System Windows 7 Ultimate 64-bit SP1 CPU Intel Core i7 940 Cores 4 Threads 8 Name Intel Core i7 940 Code Name Bloomfield Package Socket 1366 LGA Technology 45nm Specification Intel Core i7 CPU 940 @ 2.93GHz Family 6 Extended Family 6 Model A Extended Model 1A Stepping 4 Revision C0/C1 Instructions MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, Intel 64, NX, VMX Virtualization Supported, Enabled Hyperthreading Supported, Enabled Fan Speed 969 RPM Bus Speed 134.8 MHz Rated Bus Speed 2426.5 MHz Stock Core Speed 2933 MHz Stock Bus Speed 133 MHz Average Temperature 51 °C Caches L1 Data Cache Size 4 x 32 KBytes L1 Instructions Cache Size 4 x 32 KBytes L2 Unified Cache Size 4 x 256 KBytes L3 Unified Cache Size 8192 KBytes Cores Core 0 Core Speed 3100.5 MHz Multiplier x 23.0 Bus Speed 134.8 MHz Rated Bus Speed 2426.5 MHz Temperature 55 °C Threads APIC ID: 0, 1 Core 1 Core Speed 1617.7 MHz Multiplier x 12.0 Bus Speed 134.8 MHz Rated Bus Speed 2426.5 MHz Temperature 50 °C Threads APIC ID: 2, 3 Core 2 Core Speed 1617.7 MHz Multiplier x 12.0 Bus Speed 134.8 MHz Rated Bus Speed 2426.5 MHz Temperature 49 °C Threads APIC ID: 4, 5 Core 3 Core Speed 1617.7 MHz Multiplier x 12.0 Bus Speed 134.8 MHz Rated Bus Speed 2426.5 MHz Temperature 49 °C Threads APIC ID: 6, 7 RAM Memory slots Total memory slots 6 Used memory slots 3 Free memory slots 3 Memory Type DDR3 Size 6144 MBytes Channels # Triple DRAM Frequency 539.2 MHz CAS# Latency (CL) 8 clocks RAS# to CAS# Delay (tRCD) 8 clocks RAS# Precharge (tRP) 8 clocks Cycle Time (tRAS) 20 clocks Command Rate (CR) 1T Physical Memory Memory Usage 78 % Total Physical 5.99 GB Available Physical 1.30 GB Total Virtual 12 GB Available Virtual 7.66 GB SPD Number Of SPD Modules 3 Slot #1 Type DDR3 Size 2048 MBytes Manufacturer Team Group Inc. Max Bandwidth PC3-10700H (667 MHz) Part Number Tri-Dark-1600 Week/year 06 / 10 SPD Ext. XMP Timing table JEDEC #1 Frequency 444.4 MHz CAS# Latency 6,0 RAS# To CAS# 6 RAS# Precharge 6 tRAS 16 tRC 22 Voltage 1,500 V JEDEC #2 Frequency 592.6 MHz CAS# Latency 8,0 RAS# To CAS# 8 RAS# Precharge 8 tRAS 22 tRC 30 Voltage 1,500 V JEDEC #3 Frequency 666.7 MHz CAS# Latency 9,0 RAS# To CAS# 9 RAS# Precharge 9 tRAS 24 tRC 33 Voltage 1,500 V XMP-1600 Frequency 800 MHz CAS# Latency 8,0 RAS# To CAS# 8 RAS# Precharge 8 tRAS 24 Voltage 1,650 V Slot #2 Type DDR3 Size 2048 MBytes Manufacturer Team Group Inc. Max Bandwidth PC3-10700H (667 MHz) Part Number Tri-Dark-1600 Week/year 06 / 10 SPD Ext. XMP Timing table JEDEC #1 Frequency 444.4 MHz CAS# Latency 6,0 RAS# To CAS# 6 RAS# Precharge 6 tRAS 16 tRC 22 Voltage 1,500 V JEDEC #2 Frequency 592.6 MHz CAS# Latency 8,0 RAS# To CAS# 8 RAS# Precharge 8 tRAS 22 tRC 30 Voltage 1,500 V JEDEC #3 Frequency 666.7 MHz CAS# Latency 9,0 RAS# To CAS# 9 RAS# Precharge 9 tRAS 24 tRC 33 Voltage 1,500 V XMP-1600 Frequency 800 MHz CAS# Latency 8,0 RAS# To CAS# 8 RAS# Precharge 8 tRAS 24 Voltage 1,650 V Slot #3 Type DDR3 Size 2048 MBytes Manufacturer Team Group Inc. Max Bandwidth PC3-10700H (667 MHz) Part Number Tri-Dark-1600 Week/year 06 / 10 SPD Ext. XMP Timing table JEDEC #1 Frequency 444.4 MHz CAS# Latency 6,0 RAS# To CAS# 6 RAS# Precharge 6 tRAS 16 tRC 22 Voltage 1,500 V JEDEC #2 Frequency 592.6 MHz CAS# Latency 8,0 RAS# To CAS# 8 RAS# Precharge 8 tRAS 22 tRC 30 Voltage 1,500 V JEDEC #3 Frequency 666.7 MHz CAS# Latency 9,0 RAS# To CAS# 9 RAS# Precharge 9 tRAS 24 tRC 33 Voltage 1,500 V XMP-1600 Frequency 800 MHz CAS# Latency 8,0 RAS# To CAS# 8 RAS# Precharge 8 tRAS 24 Voltage 1,650 V Motherboard Manufacturer ASUSTeK Computer INC. Model P6T (LGA1366) Version Rev 1.xx Chipset Vendor Intel Chipset Model X58 Chipset Revision 13 Southbridge Vendor Intel Southbridge Model 82801JR (ICH10R) Southbridge Revision 00 System Temperature 42 °C BIOS Brand American Megatrends Inc. Version 1408 Date 21/09/2010 Voltage CPU CORE 1.104 V MEMORY CONTROLLER 1.760 V +3.3V 3.328 V +5V 4.944 V +12V 11.710 V VIN6 1.016 V Graphics Monitor Name Acer AL1916W on AMD Radeon HD 5800 Series Current Resolution 1440x900 pixels Work Resolution 1440x860 pixels State Enabled, Primary, Output devices support Monitor Width 1440 Monitor Height 900 Monitor BPP 32 bits per pixel Monitor Frequency 60 Hz Device \\.\DISPLAY5\Monitor0 ATI AMD Radeon HD 5800 Series Manufacturer ATI Model AMD Radeon HD 5800 Series GPU Cypress Device ID 1002-6898 Subvendor Sapphire/PCPartner (174B) Current Performance Level Level 0 Current GPU Clock 156 MHz Current Memory Clock 300 MHz Current Shader Clock 300 MHz Voltage 0.950 V Technology 40 nm Die Size 334 mm² Release Date Sep 23, 2009 DirectX Support 11.0 DirectX Shader Model 5.0 OpenGL Support 4.1 GPU Clock 875,0 MHz Temperature 35 °C Core Voltage 0.950 V Driver version 13.152.0.0 BIOS Version 113-C00140-00T ROPs 32 Shaders 1600 unified Memory Type GDDR5 Memory 1024 MB Bus Width 64x4 (256 bit) Pixel Fillrate 28,0 GPixels/s Bandwidth 160,0 GB/s Max Power Draw 188 Watts Count of performance levels : 3 Level 1 - "Perf Level 0" GPU Clock 157 MHz Shader Clock 300 MHz Level 2 - "Perf Level 1" GPU Clock 600 MHz Shader Clock 900 MHz Level 3 - "Perf Level 2" GPU Clock 875 MHz Shader Clock 1250 MHz Storage Hard drives Samsung SSD 850 EVO 120G (SSD) Manufacturer SAMSUNG Heads 16 Cylinders 14.593 Tracks 3.721.215 Sectors 234.436.545 SATA type SATA-III 6.0Gb/s Device type Fixed ATA Standard ACS2 Serial Number S21UNXAG546226H Firmware Version Number EMT02B6Q LBA Size 48-bit LBA Power On Count 1312 times Power On Time 117,9 days Speed Not used (SSD Drive) Features S.M.A.R.T., NCQ, TRIM, SSD Max. Transfer Mode SATA III 6.0Gb/s Used Transfer Mode SATA II 3.0Gb/s Interface SATA Capacity 111 GB Real size 120.034.123.776 bytes RAID Type None S.M.A.R.T Status Good Temperature 30 °C Temperature Range OK (less than 50 °C) S.M.A.R.T attributes WDC WD2500AAKS-00C9A0 Manufacturer Western Digital Form Factor GB/3.5-inch Business Unit/Brand Desktop/WD Caviar Heads 16 Cylinders 30.401 Tracks 7.752.255 Sectors 488.392.065 SATA type SATA-II 3.0Gb/s Device type Fixed ATA Standard ATA8-ACS Serial Number WD-WCARY0051024 Firmware Version Number 12.01B02 LBA Size 48-bit LBA Power On Count 6597 times Power On Time 1416,2 days Speed 7200 RPM Features S.M.A.R.T., AAM, NCQ Max. Transfer Mode SATA II 3.0Gb/s Used Transfer Mode SATA II 3.0Gb/s Interface SATA Capacity 232 GB Real size 250.059.350.016 bytes RAID Type None S.M.A.R.T Status Good Maxtor 6V300F0 Manufacturer Maxtor Heads 16 Cylinders 36.483 Tracks 9.303.165 Sectors 586.099.395 SATA type SATA-II 3.0Gb/s Device type Fixed ATA Standard ATA/ATAPI-7 Serial Number V60E19HG Firmware Version Number VA111630 LBA Size 48-bit LBA Power On Count 2095 times Power On Time 204,1 days Features S.M.A.R.T., APM, AAM, NCQ Max. Transfer Mode SATA II 3.0Gb/s Used Transfer Mode SATA II 3.0Gb/s Interface SATA Capacity 279 GB Real size 300.090.728.448 bytes RAID Type None S.M.A.R.T Last edited by gamete; 9th March 2021 at 21:48. |
10th March 2021, 12:58 | #3 | Link |
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Join Date: Jan 2010
Posts: 227
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Now that BD-Rebuilder supports Nvidia NVENC gpu acceleration for encoding, you have basically two options. Upgrade your video card for (hardware) GPU Encoding, or continue using software encoding and upgrade your CPU/Motherboard/RAM/etc.
Video card upgrade... Since support of hardware accelerated video encoding using an NVIDIA GPU has been added to BD-Rebuilder, you buy a video card based on Nvidia Turing encoder/decoder chip, like the GTX1650 Super, GTX 1660, RTX2060 or up and get a very nice speed bump! (Note, GTX1650 non-super has Pascal encoder which doesn't provide as good of video quality when encoding). Unfortunately video cards are hard to find in stock these days, and therefore the ones you can find are expensive. If you are not a serious gamer, the GTX1650 Super and GTX1660 and GTX1660ti give the best bang for the buck for video encoding without a change in power needs too much (just check if the card you are buying requires 6 or 8 pin power, and the power supply you have, has the connectors). The chip on the video card will do the work for the video encoding process, and the encoder in the Turing chip gives video quality output which is nearly the same as X264/X265 software, but a lot faster. CPU/Motherboard/Ram, etc upgrade... The other option is to continue with software video encoding like you had been using with your current gear, and upgrade your CPU, Motherboard, Ram, and potentially CPU cooler (also know as Heatsink and fan), and power supply. The newest CPUs and motherboards use different sockets than your current rig, require more cooling, and the newer boards run with DDR4 ram, so upgrading only 1 part isn't an option. At minimum you'll be looking at CPU, CPU Cooler, Motherboard and RAM. You'll also have to pay attention to what connectors your power supply has, as the new board might require different connectors. For reference, here is a link to a thread from a while ago of my asking similar questions, giving my results and others contributing their thoughts and experiences. Others who upgraded also shared what they did. http://forum.doom9.org/showthread.php?t=173601 My upgrades were done before support of Nvidia GPU acceleration was added to BD-Rebuilder, so it focused more on the CPU/Cooler/Motherboard/Memory upgrade route, but I did include tests after each round to compare the improvements. Because your drives are SATA, they can be re-used with new motherboards. If you get a new motherboard, cpu, memory combo, you might need to upgrade to windows 10, at least for Intel based setup, as the Z490 boards do not have drivers for older windows versions. Last edited by Mark_Venture; 10th March 2021 at 14:17. |
11th March 2021, 02:32 | #6 | Link |
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Join Date: Jan 2010
Posts: 227
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Using my GTX1660ti (Turing based card), my eyes can't really see any difference, even when watching on my 65" Sony XBR 4K TV. So I use NVENC (hardware encoding) all the time now. It's rare that I use BD-Rebuilder's default of software encoding.
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11th March 2021, 04:41 | #7 | Link |
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Join Date: Apr 2011
Posts: 429
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At the end of last year we upgraded our PC. It was not unlike what you have detailed above, gamete.
Old PC MB: Asus P6x58 premium CPU: Intel i7-950 RAM: 12GB OS Drive: Samsung 960 Pro SSD 256GB Storage Drives: WD Black (2 @ 2TB RAID0, 1 @ 4TB) Graphics: Asus GT1060 We kept some of the old components, replacing what we needed to get the new CPU running. New PC: MB: Asus TUF Gaming x570 CPU: AMD 3900x RAM: 32GB OS Drive: Samsung 970 Pro NVME 500GB Storage SSD: WD NVME 1TB Storage HDD: WD Black (2 @ 2TB RAID0, 1 @ 4TB) Graphics: Asus GT1060 I only do CPU-based software re-encoding. With the old PC it took about 3.5 to 4 hrs for a typical BD50 to BD25 rebuild (2-pass, high quality). The new PC does it in less than an hour, and is about 4x faster. Most of the speed increase is because of the 12 core/24 thread processor, but the NVME storage drive really shines when scanning a BD folder, or extracting the audio files, etc. I really like it. Last edited by RobertM; 11th March 2021 at 04:49. |
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