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DHCP Server Setting DHCP Server: Enabled Disabled : Start IP Address: 192 . 168 . 1. Maximum Number of Users: IP Address Range: 192 . 168 . 1. 100 to 149 DHCP Server Setting DHCP Server: Enabled Disabled : Start IP Address: 192 . 168 . 1. Maximum Number of Users: IP Address Range: 192 . 168 . 1. 100 to 149

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How To Change Tenda Router Admin Password Tenda Set 192 168 0 1

59IPV6 SOURCE ADDRESS: 2001:192:168:1::3IPV6 DESTINATION ADDRESS: 2001:DB8::3TRNS SOURCE PORT: 0TRNS DESTINATION PORT: 0INTERFACE INPUT: Te0/5/0...!Router# show flow monitor fnf_181_v6_out cache format csv Cache type: Normal (Platform cache) Cache size: 16384 Current entries: 100 Flows added: 8000 Flows aged: 7900 - Immediate aged 7900IPV6 NEXT HEADER,IPV6 SRC ADDR,IPV6 DST ADDR,TRNS SRC PORT,TRNS DST PORT,INTF INPUT,IP TOS,bytes,pkts59,2001:192:168:1::1,2001:DB8::1,0,0,Te0/5/0,0x03,16086455,4889559,2001:192:168:1::2,2001:DB8::2,0,0,Te0/5/0,0x03,16088429,4890159,2001:192:168:1::3,2001:DB8::3,0,0,Te0/5/0,0x03,16089087,4890359,2001:192:168:1::4,2001:DB8::4,0,0,Te0/5/0,0x03,16089087,4890359,2001:192:168:1::5,2001:DB8::5,0,0,Te0/5/0,0x03,16090074,4890659,2001:192:168:1::6,2001:DB8::6,0,0,Te0/5/0,0x03,16091061,48909...! Additional References Related Documents Related Topic Document Title Cisco IOS commands Cisco IOS Master Command List, All Releases Flexible NetFlow conceptual information and configuration tasks Flexible NetFlow Configuration Guide Flexible NetFlow commands Cisco IOS Flexible NetFlow Command Reference Standards/RFCs Standard Title No new or modified standards/RFCs are supported by this feature. — MIBs MIB MIBs Link None To locate and download MIBs for selected platforms, Cisco software releases, and feature sets, use Cisco MIB Locator found at the following URL: Technical Assistance Description Link The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password.

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C mo acceder al router usando la IP 192 168 1 1 o 192 168 0 1

Input match interface output collect counter packets collect counter bytes! show flow monitor cache Router# show flow monitor TEST_IPV6_MONITOR cacheCache type: Normal (Platform cache) Cache size: 16384 Current entries: 2 Flows added: 0 Flows aged: 0IPV6 NEXT HEADER: 59IPV6 SOURCE ADDRESS: 2001:192:168:1::1IPV6 DESTINATION ADDRESS: 2001:DB8::1TRNS SOURCE PORT: 0TRNS DESTINATION PORT: 0INTERFACE INPUT: Gi0/0/4INTERFACE OUTPUT: Gi0/0/4IP TOS: 0x03counter bytes: 233697724counter packets: 191242IPV6 NEXT HEADER: 59IPV6 SOURCE ADDRESS: 2001:192:168:1::2IPV6 DESTINATION ADDRESS: 2001:DB8::2TRNS SOURCE PORT: 0TRNS DESTINATION PORT: 0INTERFACE INPUT: Gi0/0/4IP TOS: 0x03counter bytes: 233697724counter packets: 191242...!Router# show flow monitor TEST_IPV6_MONITOR cache format csv Cache type: Normal (Platform cache) Cache size: 16384 Current entries: 2 Flows added: 0 Flows aged: 0IPV6 NEXT HEADER,IPV6 SRC ADDR,IPV6 DST ADDR,TRNS SRC PORT,TRNS DST PORT,INTF INPUT,IP TOS,bytes,pkts59,2001:192:168:1::1,2001:DB8::1,0,0,Gi0/0/4,0x03,574518412,47014659,2001:192:168:1::2,2001:DB8::2,0,0,Gi0/0/4,0x03,574518412,470146...! Verifying Netflow Monitoring for IPv4 traffic on EFP interfaces Use these commands to verify netlfow monitoring for IPv4 traffic on EFP interfaces. show run interfaces Router# #show run interfaces gigabitEthernet 0/0/2Building configuration...Current configuration : 8880 bytes!interface GigabitEthernet0/0/2 no ip address negotiation auto service instance 151 ethernet encapsulation dot1q 151 rewrite ingress tag pop 1 symmetric bridge-domain 151 ip flow monitor fnf_151_v4_in input... show run flow monitor Router# show run flow monitor fnf_151_v4_inCurrent configuration:!flow monitor fnf_151_v4_in exporter TEST6 record TEST6!Router# show run flow exporter TEST6Current configuration:!flow exporter TEST6 destination 10.10.10.100 source Loopback1 dscp 23 ttl 7 transport udp 9999 template data timeout 60! show run flow record Router# show run flow record TEST6Current configuration:!flow record TEST6 match ipv4 source address match ipv4 destination address match ipv4 protocol match interface input match interface outputmatch transport source-port match transport destination-port match ipv4 tos collect counter packets collect counter bytes! show flow service instance id Router# show flow service instance id 151 interface GigabitEthernet 0/0/2 FNF: monitor: fnf_151_v4_in direction: Input traffic(ip): onRouter# show flow monitor fnf_151_v4_in cache Cache type: Normal (Platform cache) Cache size: 16384 Current entries: 100 Flows added: 7900 Flows aged: 7800 - Immediate aged 7800IPV4 SOURCE ADDRESS: 192.168.1.201IPV4 DESTINATION ADDRESS: 192.168.1.100TRNS SOURCE PORT: 4000TRNS DESTINATION PORT: 5000INTERFACE INPUT: Gi0/0/2INTERFACE OUTPUT: Gi0/0/2IP TOS: 0x00IP PROTOCOL: 6counter bytes: 1943500counter packets: 3887IPV4 SOURCE ADDRESS: 192.168.1.203IPV4 DESTINATION ADDRESS: 192.168.1.100TRNS SOURCE PORT: 4000TRNS DESTINATION PORT: 5000INTERFACE INPUT: Gi0/0/2IP TOS: 0x00IP PROTOCOL: 6counter bytes: 1944500counter packets: 3889IPV4 SOURCE ADDRESS: 192.168.1.200IPV4 DESTINATION ADDRESS: 192.168.1.100TRNS SOURCE PORT: 4000TRNS DESTINATION PORT: 5000INTERFACE INPUT: Gi0/0/2IP TOS: 0x00IP PROTOCOL: 6counter bytes: 1944500counter packets: 3889...!Router# show flow monitor fnf_151_v4_in cache format csv Cache type: Normal (Platform cache) Cache size: 16384 Current entries: 100

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Conductor 153 which, as already mentioned, is connected to an input of NAND gate 156. It is also connected to an input of inverter 164. The output of inverter 164 is a node 166 which is connected to a group of illustratively n-channel transistors 168, 170, 172, being used as capacitors. Capacitors 168-172 must be close to each other and located such that they may be connected in various combinations to node 166. Preferably, capacitors 168 and 170 are connected in parallel. Capacitor 172 may be used alternatively or additionally, so that any combination may be used. The purpose of these capacitors is to determine the length of time that a clock signal CLKH (mentioned below) remains high. Node 166 also is connected to an input of another inverter 174, the output of which is applied as one input to a NOR gate 175 comprising transistors 176, 178, 180 and 182. Thus, the output of inverter 174 is applied to the gate electrode of n-chεnnel transistor 176, and to the gate electrode of p-channel transistor 178. The source of transistor 178 is connected to VCC, and its drain is connected to an inverter formed by transistors 180 and 182. The input to the inverter formed by transistors 180, 182 is provided by the derived clock signal DCLKB (when the clock options are enabled), or by the signal on line 142 (when the clock options are disabled and node A is connected to node B). The output of NOR gate 175 is the clock signal CLKH which is used in other parts of the clock generator circuitry. This NOR gate 175 is used to generate a high going pulse with the pulse width determined by the delay circuitry formed by inverters 164 and 174 and transistors 168 and 170. Fig. 6 illustrates the circuit elements of clock control circuit 16. One input to circuit 16 is the inverted clock signal CLKBP signal from conductor 142 (Fig. 5). This is applied as one input to a NOR gate 190. A second input to gate 190 is the power-down signal CLKONB, which is normally low. The output of NOR gate 190 is applied to a sequence of inverters 192, 194, and 196, the output of which is applied as one input of a NAND gate 198. Logic circuits 192-196 create a delay, both individually and collectively. The other input to gate 198 is the output of NOR gate 190. Hence, circuits 192-198 essentially form a one-shot or timer circuit having an output SETFFB. The initial pulse width on CLKPAD going high has to be wide enough to provide a pulse to generate the SETFFB signal. That signal is applied to a flip-flop formed. DHCP Server Setting DHCP Server: Enabled Disabled : Start IP Address: 192 . 168 . 1. Maximum Number of Users: IP Address Range: 192 . 168 . 1. 100 to 149 DHCP Server Setting DHCP Server: Enabled Disabled : Start IP Address: 192 . 168 . 1. Maximum Number of Users: IP Address Range: 192 . 168 . 1. 100 to 149

C mo acceder al router usando la IP 192 168 1 1 o

Flows added: 7900 Flows aged: 7800 - Immediate aged 7800IPV4 SRC ADDR,IPV4 DST ADDR,TRNS SRC PORT,TRNS DST PORT,INTF INPUT,IP TOS,IP PROT,bytes,pkts192.168.1.201,192.168.1.100,4000,5000,Gi0/0/2,0x00,6,243000,486192.168.1.203,192.168.1.100,4000,5000,Gi0/0/2,0x00,6,243500,487192.168.1.200,192.168.1.100,4000,5000,Gi0/0/2,0x00,6,244000,488...! Verifying Netflow Monitoring for IPv6 traffic on EFP interfaces Use these commands to verify netlfow monitoring for IPv6 traffic on EFP interfaces. show run interfaces Router# #show run interfaces TenGigabitEthernet 0/5/0Building configuration...Current configuration : 9710 bytes!interface TenGigabitEthernet0/5/0 no ip address service instance 181 ethernet encapsulation dot1q 181 rewrite ingress tag pop 1 symmetric bridge-domain 181 ipv6 flow monitor fnf_181_v6_out output...!Router# show flow service instance id 181 interface tenGigabitEthernet 0/5/0 FNF: monitor: fnf_181_v6_out direction: Output traffic(ipv6): on show run flow monitor Router# show run flow monitor fnf_181_v6_outCurrent configuration:!flow monitor fnf_181_v6_out exporter IPV6_TEST6 record IPV6_TEST6!Router# show run flow record IPV6_TEST6Current configuration:!flow record IPV6_TEST6 match ipv6 source address match ipv6 destination address match ipv6 traffic-class match ipv6 next-header match transport source-port match transport destination-port match interface input match interface output collect counter packets collect counter bytes!Router# show run flow exporter IPV6_TEST6CCurrent configuration:!flow exporter IPV6_TEST6 destination 10.10.10.100 template data timeout 60!Router# show flow monitor fnf_181_v6_outFlow Monitor fnf_181_v6_out: Description: User defined Flow Record: IPV6_TEST6 Flow Exporter: IPV6_TEST6 Cache: Type: normal (Platform cache) Status: allocated Size: 16384 entries Inactive Timeout: 15 secs Active Timeout: 1800 secs Trans end aging: off show run flow record Router# show run flow record IPV6_TEST6flow record IPV6_TEST6: Description: User defined No. of users: 63 Total field space: 50 bytes Fields: match ipv6 traffic-class match ipv6 next-header match ipv6 source address match ipv6 destination address match transport source-port match transport destination-port match interface input match interface output collect counter bytes collect counter packets!Router# show flow exporter IPV6_TEST6Flow Exporter IPV6_TEST6: Description: User defined Export protocol: NetFlow Version 9 Transport Configuration: Destination IP address: 2001:DB8::1 Source IP address: 2001:192:168:1::1 Transport Protocol: UDP Destination Port: 9995 Source Port: 62241 DSCP: 0x0 TTL: 255 Output Features: Used show flow service instance id Router# show flow service instance id 181 interface tenGigabitEthernet 0/5/0 FNF: monitor: fnf_181_v6_out direction: Output traffic(ipv6): onRouter# show flow monitor fnf_181_v6_out cache Cache type: Normal (Platform cache) Cache size: 16384 Current entries: 100 Flows added: 8000 Flows aged: 7900 - Immediate aged 7900IPV6 NEXT HEADER: 59IPV6 SOURCE ADDRESS: 2001:192:168:1::1IPV6 DESTINATION ADDRESS: 2001:DB8::1TRNS SOURCE PORT: 0TRNS DESTINATION PORT: 0INTERFACE INPUT: Te0/5/0INTERFACE OUTPUT: Te0/5/0IP TOS: 0x03counter bytes: 16086455counter packets: 48895IPV6 NEXT HEADER: 59IPV6 SOURCE ADDRESS: 2001:192:168:1::2IPV6 DESTINATION ADDRESS: 2001:DB8::2TRNS SOURCE PORT: 0TRNS DESTINATION PORT: 0INTERFACE INPUT: Te0/5/0IP TOS: 0x03counter bytes: 16088429counter packets: 48901IPV6 NEXT HEADER:

192 168 1 1 uses an unsupported protocol حل مشكلة - YouTube

(255, 111, 97, 1)HSL: (6, 100%, 67%)CMYK: (0%, 56%, 62%, 0%)MagentaA bold, saturated pink with purple undertones, often used to symbolize creativity and energy.Hex: #FF00FFRGB: (255, 0, 255)RGBA: (255, 0, 255, 1)HSL: (300, 100%, 50%)CMYK: (0%, 100%, 0%, 0%)Salmon PinkA soft pink with a hint of orange, reminiscent of the color of salmon flesh.Hex: #FF91A4RGB: (255, 145, 164)RGBA: (255, 145, 164, 1)HSL: (350, 100%, 74%)CMYK: (0%, 43%, 36%, 0%)Lavender PinkA soft, pastel pink with lavender hues, creating a calm and serene atmosphere.Hex: #F1C6C0RGB: (241, 198, 192)RGBA: (241, 198, 192, 1)HSL: (350, 57%, 83%)CMYK: (0%, 18%, 20%, 5%)Lavender RoseA delicate pink with a touch of lavender, providing an elegant and romantic feel.Hex: #F1A7C7RGB: (241, 167, 199)RGBA: (241, 167, 199, 1)HSL: (340, 72%, 79%)CMYK: (0%, 31%, 17%, 5%)Pink ChampagneA light, creamy pink with a subtle golden shimmer, often used for celebrations.Hex: #F7E1D7RGB: (247, 225, 215)RGBA: (247, 225, 215, 1)HSL: (30, 53%, 89%)CMYK: (0%, 9%, 13%, 3%)Deep PinkA darker, more intense shade of pink, representing confidence and boldness.Hex: #D5006DRGB: (213, 0, 109)RGBA: (213, 0, 109, 1)HSL: (328, 100%, 42%)CMYK: (0%, 100%, 49%, 16%)Rose QuartzA soft, pale pink that evokes feelings of tranquility and calm.Hex: #F7A8B8RGB: (247, 168, 184)RGBA: (247, 168, 184, 1)HSL: (340, 76%, 83%)CMYK: (0%, 32%, 26%, 3%)Bubblegum PinkA playful and light pink, symbolizing joy and energy.Hex: #FF77FFRGB: (255, 119, 255)RGBA: (255, 119, 255, 1)HSL: (300, 100%, 80%)CMYK: (0%, 53%, 0%, 0%)Taffy PinkA sweet, pastel pink with a slight lavender hue, providing a soft touch of elegance.Hex: #E0A8A1RGB: (224, 168, 161)RGBA: (224, 168, 161, 1)HSL: (0, 45%, 74%)CMYK: (0%, 25%, 28%, 12%)Strawberry PinkA vibrant pink with strong red undertones, inspired by the color of ripe strawberries.Hex: #FC5A8DRGB: (252, 90, 141)RGBA: (252, 90, 141, 1)HSL: (340, 98%, 70%)CMYK: (0%, 64%, 44%, 1%)Watermelon PinkA light, fruity pink with a touch of red and orange, bringing a fresh and tropical feel.Hex: #FC6C85RGB: (252, 108, 133)RGBA: (252, 108, 133, 1)HSL: (350, 93%, 74%)CMYK: (0%, 57%, 47%, 1%)List of Black Colors: Shades, Names, and CodesBlack colors are known for their elegance, sophistication, and versatility. These shades are often associated with power, mystery, and formality, making them perfect for various design and art projects. Below is a list of 20 black colors, complete with their Hex, RGB, RGBA, HSL, and CMYK codes for accurate color reproduction.Jet BlackA deep, dark black that is often used for its boldness and intensity.Hex: #0A0A0ARGB: (10, 10, 10)RGBA: (10, 10, 10, 1)HSL: (0,

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And 146: 8. Levante cuidadosamente o tecladoPage 147 and 148: 5. Coloque a tampa do slot de memóPage 149 and 150: 6. Com a extremidade entalhada do SPage 151 and 152: 8. Gire a SO-DIMM para baixo até ePage 153 and 154: 6. Remova a placa. 7. Alinhe a bordPage 155 and 156: Pré-requisitos para o procedimentoPage 157 and 158: Nota: Se o novo PCI Express Mini CaPage 159 and 160: 5. Se uma ferramenta para remoçãoPage 161 and 162: 9. Gire o cartão até poder encaixPage 163 and 164: 5. Se uma ferramenta para remoçãoPage 165 and 166: 9. Gire o cartão até poder encaixPage 167 and 168: 4. Localize o slot do cartão SIM nPage 169 and 170: 5. Remova a tampa do slot. 6. RemovPage 171 and 172: 11. Reinstale o parafuso. 12. ReinsPage 173 and 174: Capítulo 7. Aprimorando o ComputadPage 175 and 176: 2. Desbloqueie a trava do compartimPage 177 and 178: 2. Insira o dispositivo de substituPage 179 and 180: 4. Conecte a unidade de disco rígiPage 181 and 182: Vista Frontal ThinkPad Port ReplicaPage 183 and 184: Vista traseira ThinkPad Port ReplicPage 185 and 186: ThinkPad Mini Dock Plus Series 3 e Page 187 and 188: 2. Pressione o botão do ThinkPad MPage 189 and 190: 2. Certifique-se de que a chave de Page 191 and 192: Conecte uma trava mecânica ao ThinPage 193 and 194: Capítulo 8. Configuração AvançaPage 195 and 196: Instalando Correções de Registro Page 197 and 198: Você deve. DHCP Server Setting DHCP Server: Enabled Disabled : Start IP Address: 192 . 168 . 1. Maximum Number of Users: IP Address Range: 192 . 168 . 1. 100 to 149

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Gigabit LAN ports and one Gigabit WAN connector. Because it supports a variety of internet connection types, such as PPTP and L2TP in addition to more sophisticated alternatives like Dynamic IP and Static IP, it may be used on a variety of networks. In addition to WPS rapid encryption, WPA3-SAE, and WPA2-PSK, the Tenda TX3000 Pro Dual Band Gigabit Wi-Fi 6 Router offers the flexibility to set or disable wireless security as needed. This router's extra capabilities, which include DHCP support, port forwarding, DMZ host, UPnP, and parental controls (client filter, URL filter, and time restriction), make it perfect for handling intricate home or small office networks. It has defenses against ICMP, TCP, and UDP flood attacks as well as DDNS alternatives for dynamic domain name support, such as DynDNS and no-IP. In addition, the Tenda TX3000 Pro Wi-Fi 6 Router has web-based and app-based management for effortless control, mesh networking, smart diagnosis, and IPv6 compatibility. In addition to providing online firmware upgrades and static routing, which guarantee performance that will last into the future, it provides guest network capability, bandwidth control, and remote web management. This router is small and packed with features, perfect for the needs of the current internet.Buy Tenda TX3000 Pro AX3000 3000mbps Dual Band Gigabit Wi-Fi 6 Router from Star TechIn Bangladesh, you can get original Tenda TX3000 Pro AX3000 3000mbps Dual Band Gigabit Wi-Fi 6 Router From Star Tech. We have a large collection of latest Tenda Router to purchase for your Networking. Order Online Or Visit your Nearest Star Tech Shop to get yours at lowest price. The Tenda TX3000 Pro AX3000 3000mbps Dual Band Gigabit Wi-Fi 6 Router comes with 1 year warranty. What is the price of Tenda TX3000 Pro Dual Band Wi-Fi 6 Router in Bangladesh? The latest price of

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GPU Database RTX 4000 SFF Ada Generation Specs Report an Error Graphics Processor AD104 Cores 6144 TMUs 192 ROPs 80 Memory Size 20 GB Memory Type GDDR6 Bus Width 160 bit Recommended Gaming Resolutions: 1920x1080 2560x1440 3840x2160 The RTX 4000 SFF Ada Generation is a professional graphics card by NVIDIA, launched on March 21st, 2023. Built on the 5 nm process, and based on the AD104 graphics processor, the card supports DirectX 12 Ultimate. The AD104 graphics processor is an average sized chip with a die area of 294 mm² and 35,800 million transistors. Unlike the fully unlocked GeForce RTX 4070 Ti, which uses the same GPU but has all 7680 shaders enabled, NVIDIA has disabled some shading units on the RTX 4000 SFF Ada Generation to reach the product's target shader count. It features 6144 shading units, 192 texture mapping units, and 80 ROPs. Also included are 192 tensor cores which help improve the speed of machine learning applications. The card also has 48 raytracing acceleration cores. NVIDIA has paired 20 GB GDDR6 memory with the RTX 4000 SFF Ada Generation, which are connected using a 160-bit memory interface. The GPU is operating at a frequency of 720 MHz, which can be boosted up to 1560 MHz, memory is running at 1750 MHz (14 Gbps effective). Being a dual-slot card, the NVIDIA RTX 4000 SFF Ada Generation does not require any additional power connector, its power draw is rated at 70 W maximum. Display outputs include: 4x mini-DisplayPort 1.4a. RTX 4000 SFF Ada Generation is connected to the rest of the system using a PCI-Express 4.0 x16 interface. The card measures 168 mm in length, 69 mm in width, and features a dual-slot cooling solution. Graphics Processor GPU Name AD104 Architecture Ada Lovelace Foundry TSMC Process Size 5 nm Transistors 35,800 million Density 121.8M / mm² Die Size 294 mm² Graphics Card Relative Performance RTX 4000 SFF Ada Generation 100% Based on TPU review data: "Performance Summary" at 1920x1080, 4K for 2080 Ti and faster. Performance estimated based on architecture, shader count and clocks. Clock Speeds Base Clock 720 MHz Boost Clock 1560 MHz Memory Clock 1750 MHz 14 Gbps effective Memory Memory Size 20 GB Memory Type GDDR6 Memory Bus 160 bit Bandwidth 280.0 GB/s Render Config Shading Units 6144 TMUs 192 ROPs 80 SM Count 48 Tensor Cores 192 RT Cores 48 L1 Cache 128 KB (per SM) L2 Cache 48 MB Theoretical Performance Pixel Rate 124.8 GPixel/s Texture Rate 299.5 GTexel/s FP16 (half) 19.17 TFLOPS (1:1) FP32 (float) 19.17 TFLOPS FP64 (double) 299.5 GFLOPS (1:64) Board Design Slot Width Dual-slot Length 168 mm 6.6 inches Width 69 mm 2.7 inches TDP 70 W Suggested PSU 250 W Outputs 4x mini-DisplayPort 1.4a Power Connectors None Graphics Features DirectX 12 Ultimate (12_2) OpenGL 4.6 OpenCL 3.0 Vulkan 1.3 CUDA 8.9 Shader Model 6.8 Card Notes 2 NVENC Engines2 NVDEC Engines AD104 GPU Notes Ray Tracing Cores: 3rd GenTensor Cores: 4th GenNVENC: 8th GenNVDEC: 5th GenPureVideo HD: VP12VDPAU: Feature

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