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Ultimate DSP Solutions		   TORNADO-Axxx/FMC
AdvancedMC (AMC) modules with FPGA and FMC/FMC+ site

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MicroLAB Systems is a Member of Xilinx Alliance ProgramMicroLAB Systems is a Member of Texas Instruments 3rd Party Network
MicroLAB Systems is an Executive Member of PICMG Open Modular Computing Standards Consortium PICMG Advanced Mezzanine Card (AdvancedMC, AMC) Specification
PICMG MicroTCA Specification

 

 

Key features

  • Unified, industry standard, well debugged and documented ultra-high performance FPGA+FMC platforms minimizing total design time and final cost for end user applications.
  • High performance AdvancedMC (AMC) modules with high-capacity Xilinx FPGA and FMC/FMC+ site for stand-alone and distributed TORNADO-MTCA® MicroTCA DSP systems and stand-alone/embedded applications.
  • Xilinx Virtex Ultrascale/Ultrascale+ and Kintex UltraScale/UltraScale+ FPGA
  • FMC/HPC (VITA 57.1) or FMC+/HSPC(e) (VITA 57.4) site for user application adopted I/O (AD/DA, SFP+, QSFP+, SDR, RF, etc.) with FMC submodule
  • In-chassis AMC-to-AMC high-speed real-time data transfer via AMC Fabric-D/E/F/G ports 4-7/8-11 (AMC.2 10GbE, 40GbE, 100GbE), AMC.4 Serial RapidIO (20Gbps, 50Gbps, 100Gbps), AMC.1 PCIe (32Gbps, 64Gbps, 128Gbps)
  • Optional support for AMC ports 12-15/17-20 ("free" protocol) for high-speed in-chassis AMC-to-AMC real-time data transfer
  • AMC Fabric-B ports 2-3 (AMC.3 SATA/SAS ) for communication with adjacent HDD/SSD AMC-modules
  • AMC Fabric-A ports 0-1 (AMC.2 1GbE) for remote control and in-chassis AMC-to-AMC control communication
  • Front-panel application controlled LEDs
  • MMC controller with proprietary TAMMC® high-speed MMC-kernel from MicroLAB Systems, monitoring of power/temperature, and status indication for reliable and safe device operation
  • Complies with PICMG® 3.0 Rev.3.0, MicroTCA.0 R1.0, AMC.0 R2.0, IPMI 1.5, VITA® 57.1/57.4 specifications
  • Stand-alone operation from +12V power supply for user embedded applications
  • Commercial and industrial operating temperature ranges

Development tools

  • Embedded high-speed USB FPGA JTAG emulator (equivalent to MIRAGE-UXF USB JTAG emulator for Xilinx FPGA)
  • Unified TASDK® tools for TORNADO AdvancedMC (AMC) modules with high-level API for development of FPGA CPU applications, FPGA bitstreams and host PC Windows/Linux and Android® remote control applications
  • TASDK/ThreadX toolkit with pre-certified Microsoft Azure ThreadX® RTOS for high-performance demanding applications
  • Demo projects for device tests and user projects startup
  • Xilinx Vivado tools and JTAG emulator to compile and debug user FPGA applications

Applications

  • Telecommunication and telephony
  • RF and digital radio
  • Image processing
  • Radars and astrophysics
  • Industrial, instrumentation and medical
  • General stand-alone and distributed DSP applications

** Notes

MicroLAB Systems can modify its products to meet special customer requirements. MOQ may apply. Contact MicroLAB Systems for more details.

   Block diagram for TORNADO-AKU095/FMC AMC-module with Kintex Ultrascale FPGA and FMC-site
 Block diagram for TORNADO-AKU095/FMC+ AdvancedMC (AMC) module with Kintex Ultrascale FPGA and FMC-site
(click to enlarge)
 

Block diagram for TORNADO-AVU125/FMC+ AMC-module with Virtex Ultrascale FPGA and FMC+ site
Block diagram for TORNADO-AVU125/FMC+ AdvancedMC (AMC) module with Virtex Ultrascale FPGA and FMC+ site
(click to enlarge)
 

 

TORNADO-Axxx/FMC AdvancedMC (AMC) modules

AMC-module Xilinx FPGA FPGA memory External I/O AMC ports

TORNADO-AKU15+/FMC+
TORNADO-AKU11+/FMC+

TORNADO-AKU025/FMC+
TORNADO-AKU035/FMC+
TORNADO-AKU040/FMC+
TORNADO-AKU060/FMC+
TORNADO-AKU095/FMC+
Block diagram for TORNADO-AKU095/FMC AMC-module with Kintex Ultrascale FPGA and FMC-site		 Kintex UltraScale+
XCKU15P (*)
XCKU11P

Kintex UltraScale
 XCKU025
XCKU035
XCKU040
XCKU060(*)
XCKU095

(FFVA1156)		 DDR4 1Gx64
DDR4 1Gx32
 		 FMC+/HSPC
 (VITA 57.4)
(160 I/O, 20x 16Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P4÷P7, P8÷P11
(16Gbps, 
AMC.1/.2/.4)

TORNADO-AKU085/FMC+
TORNADO-AKU115/FMC+		 Kintex UltraScale
XCKU115(*)
XCKU085

(FLVA1517C)		 DDR4 1Gx64
DDR4 1Gx64
 		 FMC+/HSPC 
 (VITA 57.4)
(160 I/O, 20x 16Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P2, P3
(6Gbps SATA3 AMC.3, 16Gbps)

P4÷P7, P8÷P11
(16Gbps,
AMC.1/.2/.4)

P12÷P15, P17÷P20
(16Gbps)

TORNADO-AKU115A/FMC+		 Kintex UltraScale
XCKU115

(RLF1924)		 DDR4 1Gx64
DDR4 1Gx64
DDR4 1Gx32		 FMC+/HSPCe
 (VITA 57.4)
(160 I/O, 32x 16Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P2, P3
(6Gbps SATA3 AMC.3, 16Gbps)

P4÷P7, P8÷P11
(16Gbps,
AMC.1/.2/.4)

P12÷P15, P17÷P20
(16Gbps)

TORNADO-AKU11+A/FMC+
TORNADO-AKU15+A/FMC+		 Kintex UltraScale+
XCKU15P(*)
XCKU11P

(FFVE1517)		 DDR4 1Gx32
DDR4 1Gx32		 FMC+/HSPCe 
 (VITA 57.4)
(160 I/O, 32x 16Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P2, P3
(6Gbps SATA3 AMC.3, 16Gbps)

P4÷P7, P8÷P11
(32Gbps,
AMC.1/.2/.4)

P12÷P15, P17÷P20
(32Gbps)

TORNADO-AKU15+B/FMC+		 Kintex UltraScale+
XCKU15P

(FFVE1760)		 DDR4 1Gx64
DDR4 1Gx32
DDR4 1Gx32
 		 FMC+/HSPCe 
 (VITA 57.4)
(160 I/O, 32x 16Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P2, P3
(6Gbps SATA3 AMC.3, 16Gbps)

P4÷P7, P8÷P11
(32Gbps,
AMC.1/.2/.4)

P12÷P15, P17÷P20
(32Gbps)

TORNADO-AVU080/FMC+
TORNADO-AVU095/FMC+
TORNADO-AVU125/FMC+
Block diagram for TORNADO-AVU125/FMC+ AMC-module with Virtex Ultrascale FPGA and FMC+ site		 Virtex UltraScale
XCVU080(*)
XCVU095
XCVU125

(FFVA2104
FLVA2104)		 DDR4 1Gx64
DDR4 1Gx64
DDR4 1Gx32
DDR4 1Gx32		 FMC+/HSPC 
 (VITA 57.4)
(160 I/O, 24x 16Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P2, P3
(6Gbps SATA3 AMC.3, 30Gbps)

P4÷P7, P8÷P11
(30Gbps,
AMC.1/.2/.4)

P12÷P15, P17÷P20
(30Gbps)

TORNADO-AVU5+/FMC+
TORNADO-AVU7+/FMC+
TORNADO-AVU9+/FMC+
TORNADO-AVU13+/FMC+		 Virtex UltraScale+
XCVU5P(*)
XCVU7P
XCVU9P
XCVU13P

(FLVA2104
FLGA2104
FHGA2104E)		 DDR4 1Gx64
DDR4 1Gx64
DDR4 1Gx64
DDR4 1Gx64		 FMC+/HSPCe 
 (VITA 57.4)
(160 I/O, 32x 28Gbps)

USB
(UART-FPGA,
UART-MMC)		 P0, P1 (1GbE)
(FPGA, MMC)

P2, P3
(6Gbps SATA3 AMC.3, 32Gbps)

P4÷P7, P8÷P11
(32Gbps,
AMC.1/.2/.4)

P12÷P15, P17÷P20
(32Gbps)

1. (*) - This FPGA is installed as default with minimal delivery time and best price.

2. "Green" backgrounds corresponds to the 'manufacturing' status of the device. Other devices are in development with specified approximate release date.

3. Technical specifications are subject for change without notification.

Notes

MicroLAB Systems can modify its products to meet special customer requirements. MOQ may apply.
Contact MicroLAB Systems for more details.

 

Datasheets and Application Materials

  Presentation "PICMG® MicroTCA Standard and its Specifics for DSP Applications" (Rus)
  Presentation "TORNADO-MTCA DSP Systems in MicroTCA Standard" (Rus)
  Presentation "TASDK® Software Development Tools for TORNADO-MTCA DSP Systems" (Rus)
  Paper in Russian 'Components and Technologies' magazine (Jan-2015): "TORNADO-A6678 AMC-module Applications in MicroTCA DSP Systems" (Rus)
  Paper in Russian 'Telecommunications' magazine (Jan-2015): "TORNADO-A6678 AMC-module Applications in MicroTCA DSP Systems" (Rus)
  Application note AN-TARxMTCA-1A (2016-01) (Rus):
O.A.Vasiliev, P.A.Semyonov: "Distributed Multichannel Radiomonitoring Systems TORNADO-RxMTCA®"
  Paper in 'Information Security - Inside' magazine (Jan-2016): "Rubic's Radiocube: Building a Multichannel Radio Monitoring System"

 
    (C) MicroLAB Systems, 1992-2024
 last update: 12 Aug 2024 19:03