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Stratix 10 GC development kit is a full design environment that comprises all the hardware and software which is required to get started. You can also take the benefits of the capabilities and performance that are available in the Stratix 10 GC development kit for various kinds of design needs. One of the things that you can do is to use this development kit to test and develop PCI Express® (PCIe®) 3.0 designs. Another thing that you will know about Starix 10 GC is that it is a PCI-SIG®-compliant expansion board that can be used to test and develop memory subsystems. The memory subsystems comprise of RLDRAM III, QDR IV, DDR3, DDR4, and memories. You can also create scalable and modular designs simply by using the FPGA mezzanine card also known as FMC. You can connect the interface to an FMC mezzanine card.
Stratix 10 GC –
In the Stratix 10 GC development kit, these all will comprise the following OBSAI, Common Public Radio Interface (CPRI), SONET, 10Gbps Ethernet (10GbE), Serial RapidIO ®, and JESD204B. Now let us look at the Startix 10GC development Kit –
- AC adapter power cables
- FMC loopback card supporting transceiver, LVDS, and single-ended I/Os
- Ethernet and USB cables
- One quad small-form-factor pluggable (QSFP) cage
- Serial digital interface (SDI) channel
- Intel® Stratix® 10 GX FPGA Development Board with an Intel® Stratix® 10 GX FPGA
- PCIe x16 edge connector
- 1GB DDR4 SDRAM, 2GB DDR3 SDRAM, and RLDRAM3 (16 Meg x 36) daughtercards
- One FMC low-pin count (LPC + 15 transceivers) connector
Software and Board Design Files –
It also comprises Software, which consists of the following – Quartus Prime Pro Software, which is needed. Then, there are board design files, it also consists of startix 10 GX FPGA development kit user guide, documentation, board test system designs (BTS), board update portal design, and design illustrations. In order to enhance the efficiency, cost, and size in higher performance applications, analog devices have operated closely with Intel PSG to create verified power solutions and these power solutions enhance the cost, efficiency, and so on. The acceptable power solutions comprise of uModules power products and these address space and time constraints at the same time you will get high efficiency, low noise, and reliability.
Power Tree Solution –
For the best solution at the hour of design, there has been an actual power tree that represents it. At the hour of the stratix 10 GX SI development kit releases a power tree was recommended that comprised an ideal solution. You can get the updated alternative version too of the power tree that has the latest solutions available from devices like analog devices. Intermediate rail is not an ideal solution for several applications, so there has been recommendations for an alternate power tree, which permits direct power conversion from a 12V input, and it is provided below, – the parts that are used are – LTM4700 – LTM4620A – LTM4630A – LTC4281 – LTM4624 – LTM4638 – LT3082 – LT3085 – LTM4671 – LTM4668A. \
Description of the Circuit –
In Intel’s Stratix 10 GX SI development kit, LTM4677 + 3x LTM4650’s is designed which is a perfect solution for core power. This solution is scalable and it can be sized or fixed aptly depending on the utilization of Stratix 10. LTM4677 is PMBus Compliant uModule that is combined with multiple LTM4650s to provide a solution that is scalable and comes with high density. LTM4700 x2 is a separate recommended solution using the latest solution like the ADI to supply power for the FPGA core rail by taking the benefits of PMBus-Compliant I2C Serial to interface with the 14nm Stratix 10’s SmartVID to reduce the FPGA’s static and dynamic power consumption.
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