Nuclear Imaging Digitizers
Highest channel density in industry
The AMARI Callbox emerges as the ideal solution tailored to comprehensively test 5G NSA and SA, LTE, LTE-M, and NB-IoT devices. Functioning seamlessly as a 3GPP compliant evolved eNodeB (eNB) / gNodeB (gNB) and Evolved Packet Core (EPC) / 5G Core (5GC), it facilitates both functional and performance testing. Empowered by a carrier-grade software suite used in network deployment, the Callbox serves as a pivotal asset for proof of concept in private network deployments.
Key Features
Highest Channel Density in industry (64 Channels per FPGA)
Open & Scalable architecture
Add algorithms in FPGA easily with Simulink
Commercial Grade + all the benefits of Open Source
Starter kit available at discounted price
PET Reference Implementation and Firmware
Join our community of users!
The goal with the Nuclear Imaging Research Community is to work beyond the current systems limitations and develop reference designs that will turn Nutaq’s Digitizers into flexible medical imaging platforms; so that by choosing one of our open-source, community-built, FPGA Reference Design, you can enable different experiments on novel PET or SPECT concepts. To that end, the community developed 3 reference designs so far:
- Oscilloscope mode
- Continuous record mode
- Real-time event processing mode
These reference designs, and others yet to be built, are openly available to education and research communities. Firmware is license-free in order to support commercialization and technology transfer to the industry. Roadmap and future development is steered by users at annual group meetings with new firmware release every 3 months.
The Community includes participants from UCLA Crump Institute, University of Washington St Louis and Sogang University just to name a few.
Highest channel density available in the industry
- 64 channels (125 msps) per FPGA
- Process 64 channels at the time
- Smallest form factor in the industry
- Lowest cost per channel
Add algorithms in FPGA easily using Simulink
- Learn to program FPGA in no time
- Use Simulink (model-based) or VHDL
- Widely used Xilinx FPGA
Open & Scalable architecture
- Standard microTCA backplane
- Up to 768 channels per chassis
- System preconfigured and synchronized
- Inter channel skew <60 ps
- DC Coupled Single-Ended 50 ohms impedance, S Parameters, 2vpp input range, no band pass filter
- Embedded or external computer for computation rendering and display
Commercial Grade + Open Source = No Compromise
- Open Source Reference Design and Firmware
- License-free firmware to support commercialization
- Documentation: quick-start guide, tutorial, programmers guide
- Dedicated Technical Support Team
- Same Day Response Guaranteed
Start collecting data in no time!
- Starter kit available at discounted price
- Pre-configured to acquire data with Matlab
- Affordable
- One week lead time
Reference Implementation and Firmware
- Oscilloscope mode, continuous record mode, real-time event processing mode
- Timestamps for Coincidence Detection
- Readout data in singles mode with PciExpress
- 280 000 events per second*
- Customizable event words
- Leading edge discriminator with 2 nanoseconds timing resolution*
- Support external discriminator (TDC) with 25 picoseconds timing resolution for time of flight*
- Supports calibration with flood histogram, energy calibration and crystal calibration tables are stored and convoluted in the FPGA
*Targeted performances
Oscilloscope Mode
Continuous Record Mode
Real-Time Event Processing Mode
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Document Detail
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Get in Touch
We are here to help, feel free to reach out and we’d be happy to assist.
Phone Number
+1 (581) 316-0347 Toll Free 1 888 665 1375 (US and Canada)
System Components
Perseus-601X
MI125
Model-Based Design Kit