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EVGA GeForce RTX 3060 XC Review
Architecture »Introduction
We have with us the EVGA GeForce RTX 3060 XC, the company's premium custom-design offering based on the new GeForce RTX 3060 "Ampere" graphics card. The RTX 3060 will go down as arguably the most important SKU for NVIDIA from this generation, as the xx60 SKU tends to sit at the top of the volume bell-curve with the high-end to its right and entry-level to the left. NVIDIA has had great success in targeting this so-called "sweetspot" market-segment dating all the way back to the 9600 GT. The new RTX 3060 is designed to be the perfect upgrade option for those still gaming on the GTX 1060 6 GB "Pascal," with a starting price of $329, which will hopefully hold as NVIDIA claims to have designed the chip to be slow at crypto-mining. We'll have to see how that works out.
The new GeForce "Ampere" architecture powering the RTX 3060 marks the 2nd generation of RTX technology, which combines new Ampere CUDA cores with concurrent FP32+INT32 math performance, 2nd generation RT cores which double the intersection performance over the previous generation, hardware for raytraced motion-blur effects, and 3rd generation Tensor cores that leverage the sparsity phenomenon in neural nets to increase AI inference performance significantly.
The RTX 3060 is based on the new 8 nm "GA106" silicon making its debut on the desktop platform, the smallest "Ampere" chip launched so far. The RTX 3060 comes with 3,584 Ampere CUDA cores, 112 3rd generation Tensor cores, 28 Ampere RT cores, 112 TMUs, and 48 ROPs. NVIDIA sweetens the deal by doubling the memory amount over the RTX 2060, up to 12 GB. The memory bus width and memory type are unchanged—192-bit GDDR6. The memory clock has been increased slightly to 15 Gbps.
The EVGA GeForce RTX 3060 XC is designed as a compact card that offers all the features of the RTX 3060 and Ampere architecture without going overboard in terms of cooling or bling. It will fit into most desktop towers and only needs one power connector. EVGA has still managed to pull off its unique flow-through PCB, which lets airflow from one of the two fans flow right through. There's also a factory overclock to be had, which runs the card at 1882 MHz (vs. 1777 MHz reference). EVGA is pricing the card at $390. In this review, we take it for a spin.
| Price | Shader Units | ROPs | Core Clock | Boost Clock | Memory Clock | GPU | Transistors | Memory | |
|---|---|---|---|---|---|---|---|---|---|
| GTX 1060 3 GB | $160 | 1152 | 48 | 1506 MHz | 1708 MHz | 2002 MHz | GP106 | 4400M | 3 GB, GDDR5, 192-bit |
| GTX 1060 | $210 | 1280 | 48 | 1506 MHz | 1708 MHz | 2002 MHz | GP106 | 4400M | 6 GB, GDDR5, 192-bit |
| GTX 1660 | $200 | 1408 | 48 | 1530 MHz | 1785 MHz | 2000 MHz | TU116 | 6600M | 6 GB, GDDR5, 192-bit |
| GTX 1660 Ti | $270 | 1536 | 48 | 1500 MHz | 1770 MHz | 1500 MHz | TU116 | 6600M | 6 GB, GDDR6, 192-bit |
| RTX 2060 | $300 | 1920 | 48 | 1365 MHz | 1680 MHz | 1750 MHz | TU106 | 10800M | 6 GB, GDDR6, 192-bit |
| RX 5700 | $330 | 2304 | 64 | 1465 MHz | 1625 MHz | 1750 MHz | Navi 10 | 10300M | 8 GB, GDDR6, 256-bit |
| GTX 1080 | $330 | 2560 | 64 | 1607 MHz | 1733 MHz | 1251 MHz | GP104 | 7200M | 8 GB, GDDR5X, 256-bit |
| RTX 2060 Super | $380 | 2176 | 64 | 1470 MHz | 1650 MHz | 1750 MHz | TU106 | 10800M | 8 GB, GDDR6, 256-bit |
| RX Vega 64 | $400 | 4096 | 64 | 1247 MHz | 1546 MHz | 953 MHz | Vega 10 | 12500M | 8 GB, HBM2, 2048-bit |
| GTX 1080 Ti | $650 | 3584 | 88 | 1481 MHz | 1582 MHz | 1376 MHz | GP102 | 12000M | 11 GB, GDDR5X, 352-bit |
| RX 5700 XT | $370 | 2560 | 64 | 1605 MHz | 1755 MHz | 1750 MHz | Navi 10 | 10300M | 8 GB, GDDR6, 256-bit |
| RTX 2070 | $340 | 2304 | 64 | 1410 MHz | 1620 MHz | 1750 MHz | TU106 | 10800M | 8 GB, GDDR6, 256-bit |
| RTX 3060 | MSRP: $330 Estimate: $420 | 3584 | 48 | 1320 MHz | 1777 MHz | 1875 MHz | GA106 | 13250M | 12 GB, GDDR6, 192-bit |
| EVGA RTX 3060 XC | Estimate: $450 | 3584 | 48 | 1320 MHz | 1852 MHz | 1875 MHz | GA106 | 13250M | 12 GB, GDDR6, 192-bit |
| RTX 2070 Super | $450 | 2560 | 64 | 1605 MHz | 1770 MHz | 1750 MHz | TU104 | 13600M | 8 GB, GDDR6, 256-bit |
| Radeon VII | $680 | 3840 | 64 | 1802 MHz | N/A | 1000 MHz | Vega 20 | 13230M | 16 GB, HBM2, 4096-bit |
| RTX 2080 | $600 | 2944 | 64 | 1515 MHz | 1710 MHz | 1750 MHz | TU104 | 13600M | 8 GB, GDDR6, 256-bit |
| RTX 2080 Super | $690 | 3072 | 64 | 1650 MHz | 1815 MHz | 1940 MHz | TU104 | 13600M | 8 GB, GDDR6, 256-bit |
| RTX 3060 Ti | $700 | 4864 | 80 | 1410 MHz | 1665 MHz | 1750 MHz | GA104 | 17400M | 8 GB, GDDR6, 256-bit |
| RTX 2080 Ti | $1000 | 4352 | 88 | 1350 MHz | 1545 MHz | 1750 MHz | TU102 | 18600M | 11 GB, GDDR6, 352-bit |
| RTX 3070 | $750 | 5888 | 96 | 1500 MHz | 1725 MHz | 1750 MHz | GA104 | 17400M | 8 GB, GDDR6, 256-bit |
| RX 6800 | $850 | 3840 | 96 | 1815 MHz | 2105 MHz | 2000 MHz | Navi 21 | 26800M | 16 GB, GDDR6, 256-bit |
| RX 6800 XT | $1200 | 4608 | 128 | 2015 MHz | 2250 MHz | 2000 MHz | Navi 21 | 26800M | 16 GB, GDDR6, 256-bit |
| RTX 3080 | $1000 | 8704 | 96 | 1440 MHz | 1710 MHz | 1188 MHz | GA102 | 28000M | 10 GB, GDDR6X, 320-bit |