BEGIN:VCALENDAR PRODID:-//Microsoft Corporation//Outlook 16.0 MIMEDIR//EN VERSION:2.0 METHOD:REQUEST X-MS-OLK-FORCEINSPECTOROPEN:TRUE BEGIN:VTIMEZONE TZID:Pacific Standard Time BEGIN:STANDARD DTSTART:16011104T020000 RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=11 TZOFFSETFROM:-0700 TZOFFSETTO:-0800 END:STANDARD BEGIN:DAYLIGHT DTSTART:16010311T020000 RRULE:FREQ=YEARLY;BYDAY=2SU;BYMONTH=3 TZOFFSETFROM:-0800 TZOFFSETTO:-0700 END:DAYLIGHT END:VTIMEZONE BEGIN:VEVENT ATTENDEE;CN="Jean-Baptiste Lorent";RSVP=TRUE:mailto:jb.lorent@intopix.com ATTENDEE;CN="Nils Finger";RSVP=TRUE:mailto:n.finger@intopix.com CLASS:PUBLIC CREATED:20190403T124721Z DESCRIPTION:Exact time: 1:20 – 1:40pm\n \nSummary:\n \nWith HD omnipresen t and 4K seemingly still in its early stages\, an even higher resolution\, namely 8K (or UHDTV2) is arising. Display and projection manufacturers ar e already presenting their first 8K-capable products and the 2018 Winter O lympics were partly filmed in this currently largest video resolution form at. Taking a peek into the future\, Japan’s national TV “NHK” has ev en announced to broadcast the full Olympic games on home turf in 2020 in g lorious 8K. Together with other rapid improvements in video quality such a s HDR and higher frame rates\, data amounts are skyrocketing. Increasing y our resolution from HD (1920x1080) to 4K (3840x2160) already quadruples th e total pixel count to 8\,294\,400 pixels. Doubling the height and width o f 4K again\, total pixels reach a whooping 33.2 million pixel per image. A t 60 frames per second that leads to 120 billion pixel to be transported\, managed and stored every minute. That’s 8K.\n \nThe solution to this is sue is a video codec that behaves like uncompressed video in terms of qual ity\, latency and complexity. Lightly compressed storage and transmission remains affordable and manageable within systems and infrastructures. It i nvolves a low-cost hardware upgrade and reduces the renewal of infrastruct ures for the same power consumption. \n \nAvailable in FPGAs and on CPU & GPU \, intoPIX TICO is a l ightweight mezzanine compression codec that has been specifically designed to achieve lossless quality at low compression ratios\, for a very low FP GA complexity and cost. It is an intra-frame codec\, which makes it perfec tly suitable for low-latency applications in comparison to inter-frame cod ecs that require frame buffers and thus reduce speed. The mezzanine codec ’s line-based latency translates into less than 1 millisecond that is in duced to the workflow.\n DTEND;TZID="Pacific Standard Time":20190410T133000 DTSTAMP:20190321T142821Z DTSTART;TZID="Pacific Standard Time":20190410T130000 LAST-MODIFIED:20190403T124721Z LOCATION:8K seminar: Room N221-222\, NAB Show\, Las Vegas ORGANIZER;CN=shows:mailto:shows@intopix.com PRIORITY:5 SEQUENCE:1 SUMMARY;LANGUAGE=en-be:Extending 8K over a single\, cost-effective wire wit h TICO lightweight compression (8K seminar presentation) TRANSP:OPAQUE UID:040000008200E00074C5B7101A82E00800000000401EF18BFADFD401000000000000000 010000000A2F7A8F093C07148941624699AA3BE8F X-ALT-DESC;FMTTYPE=text/html:

< span style='font-size:18.0pt\;mso-bidi-font-size:14.0pt'>Exact time: 1:20 –\; 1:40pm

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Summary:

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With HD omnipresent and 4K seemingly still in its early stages\, an even higher resolution\, namely 8K (or UHDTV2) is arising. Display and projection manufacturers are already presenting their first 8K-capable pro ducts and the 2018 Winter Olympics were partly filmed in this currently la rgest video resolution format. Taking a peek into the future\, Japan’ \;s national TV “\;NHK”\; has even announced to broadcast the fu ll Olympic games on home turf in 2020 in glorious 8K. Together with other rapid improvements in video quality such as HDR and higher frame rates\, d ata amounts are skyrocketing. Increasing your resolution from HD (1920x108 0) to 4K (3840x2160) already quadruples the total pixel count to 8\,294\,4 00 pixels. Doubling the height and width of 4K again\, total pixels reach a whooping 33.2 million pixel per image. At 60 f rames per second that leads to 120 billion pixel to be transported\, manag ed and stored every minute. That’\;s 8K.

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The solu tion to this issue is a video codec that behaves like uncompressed video i n terms of quality\, latency and complexity. Lightly compressed storage an d transmission remains affordable and manageable within systems and infras tructures. It involves a low-cost hardware upgrade and reduces the renewal of infrastructures for the same power consumption. \;

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Available in \;FPGAs< /span> and on \; CPU &\; GPU\, intoPIX TICO is a lightweight mezzanine compression codec that has been specifically desi gned to achieve lossless quality at low compression ratios\, for a very lo w FPGA complexity and cost. It is an intra-frame codec\, which makes it pe rfectly suitable for low-latency applications in comparison to inter-frame codecs that require frame buffers and thus reduce speed. The mezzanine co dec’\;s line-based latency translates into less than 1 millisecond th at is induced to the workflow.

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