The UHT-SCALER core provides an image and video processing block which converts input images of one size and sampling format to output images of a different size and/or sampling format. It supports scaling of 4:4:4, 4:2:2, 4:2:0 and 4:0:0 (grayscale) image streams with 8- up to 16-bit color depth, using the BILINEAR, BICUBIC, LANCZOS and EXPFILTER scaling methods. The UHT-SCALER is a standalone and high-performance scaler core, designed for enabling high-quality and ultra-high throughput performance, even in low-end target silicon technologies. The UHT-SCALER is available for ASIC or AMD-Xilinx, Efinix, Intel, Lattice and Microchip FPGA and SoC based designs.

The core accepts the input image data in planar or interleaved scan order format and outputs the scaled image data in the same planar or interleaved format as the input.

The UHT-SCALER is very easy to use and integrate in a system. It requires minimal host intervention as it only needs to be programmed once per video sequence. Once programmed, it can scale an arbitrary number of video frames without the need of any further intervention or assistance by the host system CPU.

IP Deliverables

Clear-text RTL sources for ASIC designs, or pre-synthesized and verified Netlist for FPGA and SoC devices

Release Notes, Design Specification and Integration Manual documents

Bit Accurate Model (BAM) and test vector generation binaries, including sample scripts

Pre-compiled RTL simulation model and gate-level simulation netlist for the FPGA Netlist license

Self-checking testbench environment sources, including sample BAM generated test cases

Simulation and sample Synthesis (for ASICs) or Place & Route (for FPGAs) scripts

Symbol

Features

Standalone Scaling Operation

Programmable image dimensions from 8 x 8 up to 64k x 64k

Supports YcbCr/RGB 4:4:4, YCbCr 4:2:2, YCbCr 4:2:0 and single-color 4:0:0 video formats

8 up to 16 bits per sample depth encoding

Support for bilinear, bicubic, lanczos and expfilter scaling algorithms

CPU-less, complete and standalone operation.

Advanced Scaling Implementation

Ultra-high throughput in low-end silicon

Ultra-low latency performance

On-chip memory implementation

Easy Implementation and Verification

Extensive documentation

Bit Accurate Model (BAM) with optional Test Vector generation functionality

Self-checking testbench environment

Sample BAM scripts

Synthesis scripts

Simulation scripts

Place & Route scripts for FPGAs

Trouble-Free Technology Map and Implementation

Self-contained RTL design

No internal tri-states

Strictly positive edge triggered design

D-type only Flip-Flops

Fully synchronous operation per clock domain¹

Safe CDC transfers between clock domains²

No need for special timing constraints

No false or multi-cycle paths within the same clock domain

No CDC transfers that need to be specially constrained

No other specially constrained timing paths

Literature

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UHT-SCALER IP CORE LICENSING OPTIONS

UHT-SCALER IP CORE LICENSING OPTIONS

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ASICFPGAAMD-XilinxEfinixIntelLatticeMicrochip--- Enter Optional Text ---