= Tests = == Revisions == ||= Date =||= Machine =||= OS =||= Firmware =||= pcitool =||= ipecamera =||= ufodecode =||= libuca =||= !PyTango =||= Concert =|| = Tests = || || 10/04/2015 || ipecamera4 || SuSE 13.1/3.11.10 || xxx || [source:/test/pcitool@pcitool,244 r244] || xxx || xxx || [https://github.com/ufo-kit/libuca/commit/7bf17ba4d76b07680a19c1a44fe9c0be5b736dd8 7bf17ba] || 8.1.6 || 0.11.0dev || [wiki:UfoCameraTest150422 22.04.2015] || == Beam Tests == * [wiki:test_beam Test Beam at November 2011] == Expected Performance == * 2MP-10b: 330 fps, 4MP-10b: 148 fps, 4MP-12b: 37 fps, 20MP-12b: 30 fps = Hardware & Software Requirements = * Hardware IODMA enabled in BIOS and in the kernel. Linux SWIOTLB does not guarantee 4K aligned addresses which are required by the current hardware. * In BIOS, Intel VT-d or AMD-Vi (AMD IOMMU) virtualization technologies have to be enabled. * The Linux support of Intel VT-d is enabled with "intel_iommu=on" kernel parameter (alternative is to build kernel with CONFIG_INTEL_IOMMU_DEFAULT_ON). * To check if hardware IOMMU is used run {{{dmesg | grep -e IOMMU -e DMAR -e PCI-DMA}}} * Following output indicates enabled hardware IOMMU ('''good''') {{{ [ 0.000000] Intel-IOMMU: enabled [ 0.124951] dmar: IOMMU 0: reg_base_addr fbffc000 ver 1:0 cap d2078c106f0466 ecap f020df [ 0.125044] IOAPIC id 0 under DRHD base 0xfbffc000 IOMMU 0 [ 0.125045] IOAPIC id 2 under DRHD base 0xfbffc000 IOMMU 0 [ 0.836366] IOMMU 0 0xfbffc000: using Queued invalidation [ 0.836370] IOMMU: Setting RMRR: [ 0.836377] IOMMU: Setting identity map for device 0000:00:1d.0 [0x7ccd2000 - 0x7ccf6fff] [ 0.836387] IOMMU: Setting identity map for device 0000:00:1a.0 [0x7ccd2000 - 0x7ccf6fff] [ 0.836390] IOMMU: Prepare 0-16MiB unity mapping for LPC [ 0.836394] IOMMU: Setting identity map for device 0000:00:1f.0 [0x0 - 0xffffff] [ 0.836400] PCI-DMA: Intel(R) Virtualization Technology for Directed I/O }}} * And the following output will be produced if software SWIOTLB is actually used ('''bad''') {{{ [ 1.169614] PCI-DMA: Using software bounce buffering for IO (SWIOTLB) [ 1.169618] Placing 64MB software IO TLB between ffff8800bb766000 - ffff8800bf766000 [ 1.169620] software IO TLB at phys 0xbb766000 - 0xbf766000 }}} = UFO Documentation = * [http://git.ipe.kit.edu/ardila/kit_dma3/src/64bit_upgrade KIT DMA3 git tree and documentation] * [raw-attachment:BANK_REG_UFO_HEB_DMA.3.xls UFO Camera and HEB registers] (update from 27.07.2015 by Lorenzo) * [wiki:camera_fpga_registers UFO Camera: List of FPGA Registers and debug LEDs ] * [wiki:UfoCameraOperation UFO Camera operation instructions, required timeouts, etc. ] * [wiki:UfoCameraDataFormat Short description of UFO Camera data format ] * [raw-attachment:WP4_20MPixel.pdf New header format for UFO cameras (slides)] * git clone !git@ufo.kit.edu:ufo-camera-manual = FPGA and Sensor Documentation = * [raw-attachment:"CMV2000 v2.pdf" CMOSIS CMV2000 Datasheet] * [raw-attachment:"datasheet_CMV20000 v2 1.pdf" CMOSIS CMV20000 Datasheet] * [raw-attachment:ml605.pdf Xilinx Virtex-6 ML605 Evaluation Kit] * [raw-attachment:ug379.pdf Virtex-6 DMA Engine Reference Design] = Licenses = * [raw-attachment:KIT_PN2002_V6_x8_Gen2_1_00_11262013.zip​ North-West Logic DMA (x8, gen2) IP Core for Virtex-6] and [raw-attachment:core_licenses_full.zip​ the license]