is nowhere in sight, stay afloat if lucky)
>>
>>
>>
>> Many thanks to you both for help.
>>
>> Best wishes, Neil
>>
>>
>>
>> *From:* Dan Werthimer
>> *Sent:* 19 March 2021 17:41
>> *To:* CASPER Mailing List
>> *Subject:* Re: [ca
near a product it’s all pretty much a
> research activity, profit is nowhere in sight, stay afloat if lucky)
>
>
>
> Many thanks to you both for help.
>
> Best wishes, Neil
>
>
>
> *From:* Dan Werthimer
> *Sent:* 19 March 2021 17:41
> *To:* CASPER Mailing List
>
arch activity, profit is nowhere in sight, stay afloat if lucky)
>
>
>
> Many thanks to you both for help.
>
> Best wishes, Neil
>
>
>
> *From:* Dan Werthimer
> *Sent:* 19 March 2021 17:41
> *To:* CASPER Mailing List
> *Subject:* Re: [casper] quantum entan
a research activity,
profit is nowhere in sight, stay afloat if lucky)
Many thanks to you both for help.
Best wishes, Neil
From: Dan Werthimer
Sent: 19 March 2021 17:41
To: CASPER Mailing List
Subject: Re: [casper] quantum entanglement sensing using high-speed digital
sampling and
hi neil,
there's a quad 16 Gsps 4 bit ADC FMC board developed by CFA/Smithsonian
that connects to a VCU128 FPGA board that might be useful for your work.
the analog bandwidth of the ADC doesn't get up to 30 GHz, so you'd have to
mix down your band before digitizing.
you could break your 20 GHz ban
Hi Neil,
Second question first - you can access CASPER technology from anywhere.
The software licensing may be different if you do not get academic
discounts from Mathworks, and Xilinx may also charge you something
depending on your exact situation. Both companies are generous to academic
users.
Dear All,
Would it be possible to access Casper technology for research into quantum
entanglement sensing for the micro/mm-wave band?
To explore some sensor concepts I'd be looking to make 4-bit sampling of
radiation in the band 10 GHz to 30 GHz at something like 10 Gsps. I'd need
to digit
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