使用 Stratix 10 MX 和 HBM2 和 oneAPI 加速 2D FFT
通過我們在採用 HBM2 的 520N-MX 卡上的 2D FFT 演示,探索使用 oneAPI。請務必在頁面底部請求代碼下載!
RFX 880 + 770
Direct RF Cards and Modules
Analog: 5 GSPS 14-bit ADCs, 9.7 GSPS 14-bit DACs
Digital: Up to 400 Gb/s I/O
Mix, Amplify, and Digitize All in One
Integrated into a single card you can have up/down mixing (up to 35 GHz), amplifiers and filters for first/second/third Nyquist, and the powerful AMD RFSoC direct RF chip
With RFX, You've got Options
At the heart of RFX products is the revolutionary AMD RFSoC chip, giving you a range of advantages over discreet systems. However, BittWare has leveraged our analog and digital design heritage to bring you more than expected from a typical RF card:
- Direct sampling between 50 MHz and 6 GHz
- Built-in amplifier/filter options to target first, second, or third Nyquist zones on a per channel basis
- Built-in down/up convert up to 35 GHz
- Wideband options to bypass the filtering/amplifiers and mixer per channel
- Up to 400 Gb/s digital I/O with options for PCIe- or QSFP-focused architectures
- Modular build options for our WaveBox RF servers
- Standalone (with QSFP I/O) or as PCIe card
Powered by 3rd Gen AMD Zynq UltraScale+ RFSoC
RFX cards and modules are built around the powerful AMD RFSoC devices. We bring analog signals in, but it’s the direct RF chip approach that packs so much analog and digital functionality that many racks of previous equipment are no longer necessary!
- 通過消除JESD204介面降低功耗
- Smaller physical space
- Programmable (FPGA) logic for diverse requirements and emerging standards
- Built-in ARM processing lets you do more in a standalone deployment
Designed for WaveBox
The RFX 880 and RFX 770 are designed as standalone cards or as PCIe cards in servers. We recommend the WaveBox family of enclosures and servers for the optimum mix of features and the advantage of purchasing an integrated system. Learn more on the WaveBox product page.
Where RFX Fits
At the heart of RFX cards and modules is the AMD RFSoC chip. It combines many of the traditionally discreet RF analog and digital components into a compact, configurable device. Applications including Satcom and test/measurement can benefit from these revolutionary devices.
But with RFX we’ve gone further–bringing to the PCIe form factor optional mixers, amplifiers, and filters. The RFX is configurable too, with up to four inputs/outputs and first/second/third Nyquist filters. Mixer options up to 35 GHz give you up/down conversion all in a single card or module.
Analog Mixing, Amplification, and Filtering Options
RFX 880: 4x ADCs + 4x DACs
Choose from on-card filtering and amplification targeting first, second, or third (partial) Nyquist. Or choose “wideband” and bring your own external filtering. Here’s the input ADC:
There are four of these ADC channels, each factory configurable (talk to us for pricing and availability).
Four DACs provide 30 to 6 GHz with low-pass filtering. See the datasheet for more details and the transmit side diagram.
RFX 770: Configure Up to 8x Total ADCs or DACs
Choose from on-card filtering and amplification targeting first, second, or third (partial) Nyquist. Or choose “wideband” and bring your own external filtering. Here’s the input ADC:
Depending on the RFSoC chip, the RFX 770 has either fixed 4x ADCs and 4x DACs or a configurable mix of ADCs and DACs up to a total of eight.
These analog channels are each factory configurable (talk to us for pricing and availability).
For the transmit side, see the datasheet for details.
35 GHz Mixer Option
For RFX 880 and RFX 770 cards, a new 35 GHz Up/Down Conversion option gives you even more capabilities right on the card/module.
The available channels and configuration details will vary. Contact us about getting more details and discuss your specific frequency plan.
Here is the input side diagram (see the datasheet for output and more details):
Meet the RFX Family
RFX 880
RFX 770
RFSoC
- AMD Zynq UltraScale+ RFSoC
- XCZU43 in a G1517 package
- 核心速度等級 -2
類比
- 4x 5 GSPS 14-bit ADCs
- Wideband build option provides +0 to -27 dB gain from 50 MHz to 6 GHz with no filtration
- 1st Nyquist (L-Band) build option provides +44 to -29 dB on all 4 channels, constrained between 400 MHz and 2.5 GHz by filters FL1 and FL2
- 2nd and 3rd Nyquist filters are also available on amplified channels as a special order
- 4x 9.7 GSPS 14-bit DACs
- Range of about +3 to -24 dBm
- High power end of this range is a function of frequency
- Constrained by a 4.8 GHz LPF
- 可程式設計時鐘
- 外部基準和觸發器
- Push-on SMPM connectors with optional SMA pigtails
External digital interface
- Up to 400 Gb/s available via front panel 2x QSFP-DD
- AMD 硬核IP支援雙100GbE
RFSoC
- AMD Zynq UltraScale+ RFSoC
- XCZU43 in a G1517 package, core speed grade -2
- Contact BittWare about ZU47DR RFSoC card configuration
類比
Note the following is based on the default build using ZU43DR channel count. See note in datasheet about more options with the ZU47DR device.
- 4x 5 GSPS 14-bit ADCs
- Wideband build option provides -1 to -28 dB gain from 50 MHz to 6 GHz with a 6 GHz LPF
- 1st Nyquist (L-Band) build option provides +22 to -27 dB on all 4 channels, constrained between 500 MHz and 2.5 GHz by filters FL1 and FL2
- 2nd and 3rd Nyquist filters are also available on amplified channels as a special order
- 4x 9.7 GSPS 14-bit DACs
- Range of about +3 to -24 dBm
- With the amplifier, about +20 to -24 dBm
- High power end of those ranges is a function of frequency
- Constrained by a 4.8 GHz LPF
- 可程式設計時鐘
- 外部基準和觸發器
- Push-on SMPM connectors with optional SMA pigtails (SSMC connectors instead as a special order)
主機介面
- PCIe x16 Gen3 or bifurcated dual x8 Gen4 interfaces* direct to PL
* Dual PCIe Gen 4 x8 with restrictions and errata
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