28 skills found
jmfernandes / Robin StocksThis is a library to use with Robinhood Financial App. It currently supports trading crypto-currencies, options, and stocks. In addition, it can be used to get real time ticker information, assess the performance of your portfolio, and can also get tax documents, total dividends paid, and more. More info at
SingularityMan / Vector Stock Market BotA stock market bot that automatically, once a day, rebalances your Robinhood portfolio by gathering information about each ticker in the portfolio and automatically buying or selling indefinitely.
PatzEdi / StockstirEasily gather stock data of any company in any of your Python projects
satoshiradio / Bitcoin TickerAll information to build your own Bitcoin Ticker!
HappySeaFox / Tht📊 The Swiss army knife of a stock trader. THT links stock trading platforms and charts, can add tickers directly from Finviz, take screenshots, show sector & industry information, and more.
BlockchainLabs / SaluSReserve funds will be used to increase NAV by various means, including but not limited to investing in other coins, by trade or buy back. ICO: Crowdfunding & Price Discovery: Total BTC raised during the crowdfunding will act as the price discovery mechanism. 1,000,000 Salus will be distributed among investors based on percentage invested. My share of SLS will based on total value of coins listed within Kick Starter and Trading Coins at the end of ICO. Crowdfunding phase extended to 1-18-2016 The first 10 supporters/participants will receive 10% bonus SaluS coin after distribution is over. The next 10 participants will receive 5% extra SLS. Participation requires minimum of 0.01 BTC. Crowdfunding Address: Quote 1LJPiY3vUeN5SkLY9k8qBHeMdBeXJNNtBe and Form:http://goo.gl/forms/0cMMy02srh Must be completed. Make sure to send from an address you control, not an exchange. Total Collected:https://blockchain.info/address/1LJPiY3vUeN5SkLY9k8qBHeMdBeXJNNtBe Or Use escrow Escrow Instructions: https://bitcointalk.org/index.php?topic=1317448.msg13471975#msg13471975 Kick Starter Coins: HyperStake RateCoin AudioCoin Noble Redd Viral PebbleCoin PeerCoin HYP XRA ADC NOBL RDD VIRAL XPB PPC 7,000,000: 4,000,000: 20,000,000: 70,000,000: 20,000,000: 100,000: 150,000: 100: Trading coins: BitShare Burst NXT SiaCoin XEM Dashcoin Horizon Florin Quatloo Monero BTS BURST NXT SIA XEM DSH HZ FLO QTL XMR 50,000 5,000,000 100,000 20,000,000 1,000,000 100,000 500,000 100,000 10,000 200 Cloud Staking Service: - Coin Request Form - http://goo.gl/forms/30P0We6pke HyperStake RateCoin AudioCoin Noble Redd Viral RUBY HYP XRA ADC NOBL RDD VIRAL RBY http://goo.gl/forms/Yyaub9a5aX http://goo.gl/forms/161pSKoC6Y http://goo.gl/forms/M1AG1YCinF http://goo.gl/forms/qXMhkzxdCn http://goo.gl/forms/LrAAE6kVFM http://goo.gl/forms/ZF1z6MgRYN http://goo.gl/forms/FV98Be3ZPq AFFILIATE PROGRAMS: Affiliate Program Submission form-http://goo.gl/forms/6bujSMhkgM Exchanges: Coinbase localbitcoins Bleutrade 1Broker https://www.coinbase.com/join/ https://localbitcoins.com/? https://bleutrade.com/sign_up/ https://1broker.com/m/r.php Mining: MinerGate LTCrabbit CoinKing.io https://minergate.com/ https://www.ltcrabbit.com/ http://coinking.io/? Hosting/VPS/VPN/Domains: NameCheap BitDomain.BIZ BitVPN.org http://www.namecheap.com/? http://www.bitdomain.biz/? https://bitvpn.org/? Gaming: BC Casino Directbet.eu Bitcasino.io Betterbet.io DigiByte https://www.bc-casino.com/? http://www.directbet.eu? http://coinpoker.io? https://betterbets.io/? http://www.digibytegaming.com/users/sign_up? Interest paying Wallets BW.com https://bw.com/ MISC. cointracking.info FreeDogeCoin FreeBitcoin http://cointracking.info http://freedoge.co.in/? http://freebitco.in/? Consumer Goods: Compiling List. PM me on BCT, Slack or IRC if you have any question, concerns or suggestions. Special Thanks: Syntaks - wallet Presstab - Block Explorer/Code review SebastianJu - Escrow Stoner19 - Feedback/Pool/All around help. iDunk - Win64 wallet Billotronic - MAC wallet ozmaster - Advice/Coinbar Listing Drew - IRC Bot And everyone else that has been supportive of this project.| Coin Specifications Coin Name - SaluS Ticker - SLS Annual Interest - 1% Supply - 1,000,000 Min stake age - 8 hours Max stake age - No Max age SaluS Fund Transaction Fee - .0001 Block Time - 3Min Block maturity - 5 p2p Port - 22534 rpc port - 22530 50 confirm stake minimum for eligibility (Wallet was developed by Syntaks)- https://bitcointalk.org/index.php?action=profile;u=175669 (BlockExplorer provided by Presstab)- http://www.presstab.pw/ Logo- http://saluscoin.info/pics/sls.png Source- https://github.com/saluscoin/SaluS Wallet - Win 32 | Win 64 | Raspi | Mac Block Explorer- http://sls.presstab.pw Nodes:http://www.presstab.pw/phpexplorer/SLS/nodes.php Exchanges: Bittrex - https://stage.bittrex.com/Market/Index?MarketName=BTC-SLS YoBit - https://yobit.net/en/trade/SLS/BTC Vote: - https://c-cex.com/?id=vote&coin=sls PM me if interest in adding SLS to your exchange Faucet: http://crypto-faucet.eu/faucets/sls About: An experimental Coin aimed to increase Net Asset Value (NAV) by various means. Kick Starter Coins: Below is a list of coins that will be included during the initial phase of this project. Listed coins will stake on behalf of SaluS project, stakes will be sold on exchanges to increase BTC reserve. Cloud Staking Service: Fees will be 5% of the stakes, however, the advantages listed below easily outweigh the fees. 1) Experience, keen knowledge of Coin specs. 2) Customized wallets for optimum stacking 3) Staking Advantage, (whaling weight/diff), Research for Optimum block size. 4) 24/7 Uptime, No Hassle, no worry, No Resource staking. Affiliate programs: All profit made from affiliate programs will go to SaluS reserve to increase NAV. If you hold Salus coin and would like to help your investment grow, sign up for the services listed below using provided links. Foundation Transaction Fee - .0001 This is a separate TX fee of .0001 that goes to a specific Address, called the Foundation Transaction fee. This fee is in place for couple of reasons. 1) To control inflation since the supply is set to increase by 1% annually. 2) Resold to increase the reserve. Mining Guaranteed Minimum CPU hash rate of 1000H/s Would encourage everyone invested in this coin with CPU power to spare, to click on the link below. link will be up soon. Traders Advantage: Top 10 Claimed Addresses on the rich list will have access to all trades and portfolio activity/status in near real time. There will be a fee for those who are not on top 10 list but would like to have access to such information. All fees will be added to the reserve fund. MultiPool: http://hashgoal.com/ "Holy Grail" - Financial Instrument Will not disclose any information about this project at this time, but I do believe this will take SaluS to a whole new level if it gets off the ground. (details on this project will be announced as soon as development officially starts)
Nikkitaseth / ProjectAlphaPYTHON CODE WALKTHROUGH Data Sourcing In order to run a discounted cash flow model (DCF), I needed data, so I found a free API that provided us with everything I needed. I wrote a code that saved every financial statement of every company in a separate text file. In this code, I asked to ping the API’s URL for every ticker, open a text file for one of the financial statements for one company ticker, dump all the data found by the code into this file, and close it. This process was repeated for every company in our company list and every statement I have a code for. By doing so I Ire able to store the data for every company locally and did not need to ping the API every time I ran our code. Once all the financial data for each company was stored in form of a balance sheet, income statement, cash flow statement, and company profile text file, I needed to pick out specific items required for our DCF model. Thus, I defined the functions that selected all required items from the respective financial statements of each company and assigned them to a variable using utils.py. Discounted Cash Flow Model First of all, I needed to import the functions I defined in utils.py before defining the DCF model function, which would run for every company in our list. Next, I ensured to have 5 consecutive years of past data to compute the average. Thus, the first few lines of code checked whether the last year on record was 2019 from which point I would go back 5 years; if the last year was 2018, this would be taken as the first data entry from which I would go back 5 years. The second part mentioned above is important because companies file their 10-K, i.e. their annual report, at different times throughout the year so there may be companies that already filed their reports while others had not. After this step, five-year averages of every item’s percentage of revenue Ire calculated as Ill as the average revenue growth over the same period. These items included EBIT, depreciation & amortization, capital expenditures, and the change in net working capital. Once that was done, there Ire only three variables missing before calculating free cash flows for the next few years: a discount or hurdle rate; industry-specific perpetual growth rates; and a tax rate. After these three variables Ire set up, the next step was to calculate the free cash flows to the firm (fcff) for the next 5 years and determine the terminal value at the end of the period using the growth rate for the corresponding industry. For the former, I use a loop to calculate the fcff for all the year, discount it, and add it to one variable called fcffpv. Once the terminal value was calculated, these two additional numbers captured the enterprise value of the firm. Since I Ire interested in the equity value, I subtracted debt and add cash, which left us with the equity value. In one final step, I divided this value by the number of shares to end up with an intrinsic value per share. After calculating the intrinsic value per share, I compared it to the current share price with two additions. First, I added a buffer to minimize our downside risk for inaccuracy in calculations, which is called the margin of safety. Here, the intrinsic value should at least be 115% of the current share price. I also set an upper limit at 130% to ensure I would not include companies with extraordinarily high valuations, compared to their current price. If the share price calculated fell within this window, I added its ticker to a dataframe, which was the last step in the function. As such, the DCF function would run for every company and provide a dataframe with the tickers of all those companies that Ire undervalued at the time and fell within the 115% - 130% range. Portfolio Optimization The dataframe with the tickers of all the undervalued companies that was previously created has now become the portfolio, which I converted into a list and used as the source for further optimization that is about to come. Some general inputs for the rest of the code Ire the start and end date of the data I requested for optimization, as Ill as the risk-free rate and the number of simulations I wanted to run our optimizations for. Now that the general framework has been created, it is time to choose some conditioning variables to measure the performance of investment in one sector or across a combination of some/all sectors, respectively. Project Alpha uses the following conditioning variables to optimize its portfolios: • Sharpe Ratio: It measures the performance of an investment compared to the risk-free asset, i.e. the 10-year Treasury Bond, after adjusting for its risk factor or standard deviation. The Sharpe ratio would be given a higher Iight for investors who have a higher risk tolerance. In terms of code, I used the bt package to retrieve the data betIen the predetermined start and end date for the companies in our ticker list. This data was then used to find the portfolio with the highest Sharpe ratio. For that, random Iights Ire assigned to each company and the ratio was computed. After running the number of simulations previously determined, the Iights with the highest Sharpe ratio will be located using loc() and labeled ‘sharpe_portfolio’ which is a dataframe containing the excess return, the volatility, Sharpe ratio, as Ill as the Iights for every company. I also located the portfolio with the loIst volatility, put it in a dataframe called ‘min_volatility_port’ which has the same attributes. The rest of the code of this segment simply created a picture with all the portfolios generated, displaying the efficient frontier and highlighting the portfolio with the highest Sharpe ratio and loIst volatility. • Value at Risk (VaR): VaR was chosen as a diagnostic tool to assess the model. In our case, it basically indicated the percentage of time in which a loss greater than 1% would occur over a period of 5 years. Its limitation is that although it measures how bad the best of the bad is, it does not measure how bad it can get, meaning the worst of the worst. In regards to the code, I first requested the adjusted closing for the companies in our ticker list in the determined time horizon. I then retrieved the Iights from our Sharpe portfolio, set the number of days I wanted to simulate as Ill as the cutoff, before calculating the returns of every company in every period; here: daily. Thereafter, I created a new variable called ‘sigma’, which was be a copy of our return variable, in order to ensure the right format and type for our Monte Carlo loop. The simulation is pretty straight forward, as it measures how many runs the returns fall within 1% or outside of it. I then Iighed the resulting returns by the Iight of the company in the portfolio and whenever the portfolio return was outside the set boundary, it would count as a ‘bad simulation’. Once that is done, the number of bad simulations was divided by the total number of simulations to end up with a percentage of how many simulations were bad, which equals our VaR • Treynor Ratio: For the investors that already have a perfectly diversified portfolio and would like to add more assets to it, there would be a higher Iight on the Treynor ratio. It basically uses beta as a risk factor because it carries the risk relative to the market, instead of standard deviation as in Sharpe, meaning only systematic or non-diversifiable risk. For the code, I first calculated the portfolio’s beta. For that, I defined a function ‘beta’ that reads the beta of every company and returns it. The next step is to run a loop that would enter the beta of every company in our ticker list into a new dataframe. After setting the index equal to the tickers and transposing the Sharpe portfolio Iights, I can concat the two thus resulting in two columns: one is the beta of every company and the second is the corresponding Iight in the portfolio. I then created a third column as the product of columns one and two. The sum of all entries in that column is the portfolio beta, which was then used as the denominator for the ratio. The nominator was already calculated as ‘Excess Return’ in the Sharpe portfolio. • Sortino Ratio: The Sortino ratio measures only the downside risk (downside deviation or semi-deviation) by measuring returns against a minimum acceptable return, 𝜏. It is surprising to know that most of the industry ignores the total number of periods taken and just calculates the downside deviation by choosing the periods with downside risk, which results in misleading results. Project Alpha uses all the periods to calculate the same, so as to have an advantage over those robo-advisors/financial advisors that do not follow this process. The alpha in the future would be generated by going long on companies with high correct Sortino and low incorrect Sortino as they are undervalued, and shorting those with low correct Sortino and high incorrect Sortino as these are overvalued. The Sortino ratio would be given more Iight for investors who are more risk averse. This part of the code started with retrieving the data for our benchmark, the S&P 500, for the period and the calculating the average daily and annual return. After that, I calculate the portfolio returns, ‘returns[“Returns”]’, by adding the products of every company’s Iight times its return, which gave us the portfolio return for every period. From here, I calculated the downside risk by comparing the portfolio return in every period to the daily average return of our benchmark in a for loop. Before I did that, I defined a new variable called ‘semi’, which is a data series and will be filled with whatever comes out of the loop every single time. If the portfolio return minus the average daily return of the benchmark was greater than 0 – meaning the portfolio earned more than the average of the S&P500 – the value for the period was set to 0 and added to the semi data series. If it is 0, which is extremely unlikely, but whatever, it would also be 0. If it is less than 0, hoIver, which indicates underperformance, I would square the portfolio return, which already gives us the semi variance I need for our next step. From here, I can simply take the square root of the average of the ‘semi’ data series to get the daily downside risk and multiplying it by the square root of 252, which gives us the annual number. After that, I have all the numbers to calculate the Sortino ratio. • Information Ratio: The information ratio measures the portfolio returns compared to the returns of a benchmark index, i.e. S&P500, after adjusting for its additional risk. It only looks at the excess return of the portfolio over the benchmark and the volatility or risk associated with it. I already have all the inputs I need to calculate his ratio. Thus, I simply created a new dataframe with the portfolio returns of every period and the benchmark returns of every period. To find the excess return, i.e. the nominator, I simply subtracted the latter from the former and assigned it to a new variable, which I called ‘excess_return’. The nominator would be the average return of the portfolio minus the average return of the benchmark, and the denominator would be the standard deviation of the ‘excess_return’ series. Finally, I printed short sentences with the results for every conditioning variable just described as an output in the console.
abhinavk99 / Livecoin ApiLiveCoin RESTful API wrapper for Node.js
icezerowjj / StockPriceCrawlerThis Python project scrapes asset information from Investing.com by visiting the websites and crawling it down into SQL with time, ticker and prices as the columns
sapphire-sh / Cryptocurrency TickerGet the current ticker information for cryptocurrencies
leonardosposina / Mt5 Ticker Symbol WatermarkMetaTrader 5 utility tool that draws the ticker symbol and timeframe informations as a watermark.
johno / CoinrGet latest ticker information for popular cryptocurrencies
TedCha / Yahoo Finance ScraperPython application that allows you to pass in multiple stock tickers and receive an XLSX output for each company that includes Summary, Profile, Income Statement, Balance Sheet, Cash Flow, Valuation Measures, Financial Highlights, and Trading Information data.
Exupery / CpptickerSimple command line stock ticker that uses IEX's API to show basic information about US stocks and indices.
tigusigalpa / Marketstack PhpModern PHP/Laravel SDK for Marketstack API. Access real-time stock prices, historical EOD data, and intraday trading information from 125,000+ tickers across 72+ global exchanges. Features fluent interface, type-safe DTOs, Laravel integration, and comprehensive test coverage. Perfect for trading platforms and portfolio trackers.
arshchawla21 / Realtime Stock WatchlistReal-time Stock Watchlist is a Python web app built with Streamlit that provides real-time stock information using the Yahoo Finance API. Users can enter a ticker symbol to view up-to-date stock prices and interactive charts, making it easy to track market movements and visualise price trends throughout the trading day.
rubenpazch / Capstone Conference PageConference Page is a static site developed using HTML, CSS, Javascript, SASS, Font Awesome, it was used FlexBox to build the layout from the entire website. To build this site it was given an initial design and some basic specifications from the client, the content of this project were personalized for a Workshop E-commerce if a company wants to promote an event for a conference, congress or any activity related with education, they can use this site, there is a section to show information some general information, show all program information, featured speakers, partners, tickers.
DarkLarsen / Minecraft Problem------------------ System Information ------------------ Time of this report: 11/4/2013, 20:41:29 Machine name: GITTE-SOEGAARD Operating System: Windows 8 Pro 32-bit (6.2, Build 9200) (9200.win8_gdr.130708-1504) Language: Danish (Regional Setting: Danish) System Manufacturer: Packard Bell BV System Model: EASYNOTE W3972D BIOS: Insyde Software MobilePRO BIOS Version 4.20.10 Processor: AMD Turion(tm) 64 Mobile Technology ML-32, ~1.8GHz Memory: 2048MB RAM Available OS Memory: 1920MB RAM Page File: 976MB used, 2862MB available Windows Dir: C:\Windows DirectX Version: DirectX 11 DX Setup Parameters: Not found User DPI Setting: Using System DPI System DPI Setting: 96 DPI (100 percent) DWM DPI Scaling: Disabled DxDiag Version: 6.02.9200.16384 32bit Unicode ------------ DxDiag Notes ------------ Display Tab 1: No problems found. Sound Tab 1: No problems found. Input Tab: No problems found. -------------------- DirectX Debug Levels -------------------- Direct3D: 0/4 (retail) DirectDraw: 0/4 (retail) DirectInput: 0/5 (retail) DirectMusic: 0/5 (retail) DirectPlay: 0/9 (retail) DirectSound: 0/5 (retail) DirectShow: 0/6 (retail) --------------- Display Devices --------------- Card name: Microsoft Basic Display Driver Manufacturer: Chip type: DAC type: Device Type: Display-Only Device Device Key: Enum\ROOT\BASICDISPLAY Display Memory: 256 MB Dedicated Memory: 0 MB Shared Memory: 256 MB Current Mode: 1024 x 768 (32 bit) (64Hz) Monitor Name: Digital Flat Panel (1600x1200 85Hz) Monitor Model: unknown Monitor Id: Native Mode: unknown Output Type: Other Driver Name: Driver File Version: () Driver Version: DDI Version: 11.1 Feature Levels: 11.1,11.0,10.1,10.0,9.3,9.2,9.1 Driver Model: WDDM 1.2 Graphics Preemption: DMA Compute Preemption: DMA Driver Attributes: Final Retail Driver Date/Size: , 0 bytes WHQL Logo'd: n/a WHQL Date Stamp: n/a Device Identifier: {D7B71AF4-43CC-11CF-9423-F003ADC2CB35} Vendor ID: 0x1414 Device ID: 0x008C SubSys ID: 0x00000000 Revision ID: 0x0000 Driver Strong Name: basicdisplay.inf:1080904755d1bda1:MSBDD_Fallback:6.2.9200.16384:ROOT\BasicDisplay Rank Of Driver: 00FB0000 Video Accel: DXVA2 Modes: Deinterlace Caps: {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YUY2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YUY2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YUY2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YUY2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YUY2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YUY2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: 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Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(UYVY,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(YV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(NV12,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC1,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC2,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC3,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(IMC4,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S340,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= {00000000-0000-0000-0000-000000000000}: Format(In/Out)=(S342,UNKNOWN) Frames(Prev/Fwd/Back)=(0,0,0) Caps= D3D9 Overlay: Not Supported DXVA-HD: Not Supported DDraw Status: Enabled D3D Status: Enabled AGP Status: Enabled ------------- Sound Devices ------------- Description: Højttalere (Realtek High Definition Audio) Default Sound Playback: Yes Default Voice Playback: Yes Hardware ID: HDAUDIO\FUNC_01&VEN_10EC&DEV_0880&SUBSYS_16310000&REV_1008 Manufacturer ID: 1 Product ID: 100 Type: WDM Driver Name: RtkHDAud.sys Driver Version: 5.10.0000.5123 (English) Driver Attributes: Final Retail WHQL Logo'd: Yes Date and Size: 4/15/2005 18:05:42, 2564032 bytes Other Files: Driver Provider: Realtek Semiconductor Corp. HW Accel Level: Basic Cap Flags: 0xF1F Min/Max Sample Rate: 100, 200000 Static/Strm HW Mix Bufs: 1, 0 Static/Strm HW 3D Bufs: 0, 0 HW Memory: 0 Voice Management: No EAX(tm) 2.0 Listen/Src: No, No I3DL2(tm) Listen/Src: No, No Sensaura(tm) ZoomFX(tm): No --------------------- Sound Capture Devices --------------------- Description: Lydstyrke til mikrofon (Realtek High Definition Audio) Default Sound Capture: Yes Default Voice Capture: Yes Driver Name: RtkHDAud.sys Driver Version: 5.10.0000.5123 (English) Driver Attributes: Final Retail Date and Size: 4/15/2005 18:05:42, 2564032 bytes Cap Flags: 0x1 Format Flags: 0xFFFFF Description: Linjeoptagelse for modem #0 Default Sound Capture: No Default Voice Capture: No Driver Name: Driver Version: Driver Attributes: Date and Size: Cap Flags: 0x1 Format Flags: 0x0 ------------------- DirectInput Devices ------------------- Device Name: Mus Attached: 1 Controller ID: n/a Vendor/Product ID: n/a FF Driver: n/a Device Name: Tastatur Attached: 1 Controller ID: n/a Vendor/Product ID: n/a FF Driver: n/a Poll w/ Interrupt: No ----------- USB Devices ----------- + USB-rodhub | Vendor/Product ID: 0x10B9, 0x5239 | Matching Device ID: USB\ROOT_HUB20 | Service: usbhub | Driver: usbhub.sys, 6/30/2013 23:48:36, 334680 bytes | Driver: usbd.sys, 6/30/2013 23:48:36, 18776 bytes ---------------- Gameport Devices ---------------- ------------ PS/2 Devices ------------ + Standard PS/2-tastatur | Matching Device ID: *PNP0303 | Service: i8042prt | Driver: i8042prt.sys, 7/26/2012 03:36:23, 89600 bytes | Driver: kbdclass.sys, 7/26/2012 04:42:33, 39664 bytes | + Synaptics PS/2 Port TouchPad | Matching Device ID: *syn0c02 | Upper Filters: SynTP | Service: i8042prt | Driver: SynTP.sys, 10/9/2007 07:44:58, 192560 bytes | Driver: SynTPAPI.dll, 10/9/2007 07:16:28, 147456 bytes | Driver: SynCOM.dll, 10/9/2007 07:07:54, 163840 bytes | Driver: SynCtrl.dll, 10/9/2007 07:08:12, 196608 bytes | Driver: SynTPRes.dll, 10/9/2007 07:23:08, 5783552 bytes | Driver: SynTPCpl.dll, 10/9/2007 07:17:48, 942080 bytes | Driver: SynCntxt.rtf, 10/9/2007 07:03:36, 4337710 bytes | Driver: SynZMetr.exe, 10/9/2007 07:03:24, 241664 bytes | Driver: SynMood.exe, 10/9/2007 07:02:36, 233472 bytes | Driver: SynTPEnh.exe, 10/9/2007 07:44:54, 1025320 bytes | Driver: SynTPStart.exe, 10/9/2007 07:23:32, 102400 bytes | Driver: SynTPCOM.dll, 10/9/2007 07:16:50, 102400 bytes | Driver: Tutorial.exe, 10/9/2007 07:23:26, 327680 bytes | Driver: InstNT.exe, 10/9/2007 07:44:56, 124200 bytes | Driver: SynISDLL.dll, 10/9/2007 07:44:00, 626688 bytes | Driver: SynUnst.ini, 10/12/2007 05:53:32, 385423 bytes | Driver: i8042prt.sys, 7/26/2012 03:36:23, 89600 bytes | Driver: mouclass.sys, 7/26/2012 04:42:15, 39152 bytes | Driver: SynTPCo4.dll, 10/9/2007 07:44:26, 110592 bytes | Driver: WdfCoInstaller01000.dll, 3/9/2006 01:58:00, 1060424 bytes | + HID-kompatibel mus | Vendor/Product ID: 0x046D, 0xC018 | Matching Device ID: HID_DEVICE_SYSTEM_MOUSE | Service: mouhid | Driver: mouhid.sys, 3/2/2013 08:18:13, 20992 bytes | Driver: mouclass.sys, 7/26/2012 04:42:15, 39152 bytes ------------------------ Disk & DVD/CD-ROM Drives ------------------------ Drive: C: Free Space: 85.4 GB Total Space: 114.1 GB File System: NTFS Model: ST9120822A ATA Device Drive: D: Model: MATSHITA UJ-850D ATA Device Driver: c:\windows\system32\drivers\cdrom.sys, 6.02.9200.16384 (Danish), 7/26/2012 03:33:53, 135680 bytes -------------- System Devices -------------- Name: AMD DRAM og HyperTransport(tm)-konfiguration til sporingstilstand Device ID: PCI\VEN_1022&DEV_1102&SUBSYS_00000000&REV_00\3&2B8E0B4B&0&C2 Driver: n/a Name: PCI standardvært CPU-bro Device ID: PCI\VEN_1002&DEV_5950&SUBSYS_59501002&REV_01\3&2B8E0B4B&0&00 Driver: n/a Name: ULi PCI to USB Open Host Controller Device ID: PCI\VEN_10B9&DEV_5237&SUBSYS_C00A1631&REV_03\3&2B8E0B4B&0&E2 Driver: C:\Windows\system32\drivers\usbohci.sys, 6.02.9200.16461 (English), 11/20/2012 05:59:22, 22016 bytes Driver: C:\Windows\system32\drivers\usbport.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:37, 380248 bytes Driver: C:\Windows\system32\drivers\usbhub.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:36, 334680 bytes Name: ULi PCI to USB Open Host Controller Device ID: PCI\VEN_10B9&DEV_5237&SUBSYS_C00A1631&REV_03\3&2B8E0B4B&0&E1 Driver: C:\Windows\system32\drivers\usbohci.sys, 6.02.9200.16461 (English), 11/20/2012 05:59:22, 22016 bytes Driver: C:\Windows\system32\drivers\usbport.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:37, 380248 bytes Driver: C:\Windows\system32\drivers\usbhub.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:36, 334680 bytes Name: ULi PCI to USB Open Host Controller Device ID: PCI\VEN_10B9&DEV_5237&SUBSYS_C00A1631&REV_03\3&2B8E0B4B&0&E0 Driver: C:\Windows\system32\drivers\usbohci.sys, 6.02.9200.16461 (English), 11/20/2012 05:59:22, 22016 bytes Driver: C:\Windows\system32\drivers\usbport.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:37, 380248 bytes Driver: C:\Windows\system32\drivers\usbhub.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:36, 334680 bytes Name: High Definition Audio-controller Device ID: PCI\VEN_10B9&DEV_5461&SUBSYS_C00A1631&REV_00\3&2B8E0B4B&0&E8 Driver: C:\Windows\system32\DRIVERS\hdaudbus.sys, 6.02.9200.16420 (Danish), 9/20/2012 06:29:43, 62464 bytes Name: AMD HyperTransport(tm)-konfiguration Device ID: PCI\VEN_1022&DEV_1100&SUBSYS_00000000&REV_00\3&2B8E0B4B&0&C0 Driver: n/a Name: Texas Instruments PCIxx21 Integrated FlashMedia Controller Device ID: PCI\VEN_104C&DEV_8033&SUBSYS_C00A1631&REV_00\3&2B8E0B4B&0&83 Driver: C:\Windows\system32\DRIVERS\tifm21.sys, 1.00.0002.0001 (English), 9/13/2004 13:40:56, 146304 bytes Name: AMD Ekstra konfiguration Device ID: PCI\VEN_1022&DEV_1103&SUBSYS_00000000&REV_00\3&2B8E0B4B&0&C3 Driver: n/a Name: PCI standard ISA-bro Device ID: PCI\VEN_10B9&DEV_1573&SUBSYS_C00A1631&REV_31\3&2B8E0B4B&0&F0 Driver: C:\Windows\system32\DRIVERS\msisadrv.sys, 6.02.9200.16384 (English), 7/26/2012 04:42:14, 15088 bytes Name: ALi 7101 Power Management-controller Device ID: PCI\VEN_10B9&DEV_7101&SUBSYS_C00A1631&REV_00\3&2B8E0B4B&0&F1 Driver: n/a Name: Standard Dual Channel PCI IDE-controller Device ID: PCI\VEN_10B9&DEV_5229&SUBSYS_C00A1631&REV_C7\3&2B8E0B4B&0&F8 Driver: C:\Windows\system32\DRIVERS\pciide.sys, 6.02.9200.16384 (English), 7/26/2012 04:42:15, 13552 bytes Driver: C:\Windows\system32\DRIVERS\pciidex.sys, 6.02.9200.16384 (Danish), 7/26/2012 04:42:15, 41200 bytes Driver: C:\Windows\system32\DRIVERS\atapi.sys, 6.02.9200.16384 (English), 7/26/2012 04:42:31, 22768 bytes Driver: C:\Windows\system32\DRIVERS\ataport.sys, 6.02.9200.16384 (Danish), 7/26/2012 04:42:31, 158448 bytes Name: ULi M526X Ethernet Controller Device ID: PCI\VEN_10B9&DEV_5263&SUBSYS_C00A1631&REV_50\3&2B8E0B4B&0&D8 Driver: C:\Windows\system32\DRIVERS\ULILAN32.SYS, 5.01.2600.0383 (English), 6/30/2006 04:39:14, 30720 bytes Name: ULi USB 2.0 Enhanced Host Controller Device ID: PCI\VEN_10B9&DEV_5239&SUBSYS_C00A1631&REV_01\3&2B8E0B4B&0&E3 Driver: C:\Windows\system32\drivers\usbehci.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:37, 64344 bytes Driver: C:\Windows\system32\drivers\usbport.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:37, 380248 bytes Driver: C:\Windows\system32\drivers\usbhub.sys, 6.02.9200.16654 (Danish), 6/30/2013 23:48:36, 334680 bytes Name: Texas Instruments PCI-xx21/xx11 CardBus Controller with UltraMedia Device ID: PCI\VEN_104C&DEV_8031&SUBSYS_C00A1631&REV_00\3&2B8E0B4B&0&80 Driver: C:\Windows\system32\DRIVERS\pcmcia.sys, 6.02.9200.16384 (Danish), 7/26/2012 04:48:32, 194288 bytes Driver: C:\Windows\system32\DRIVERS\pci.sys, 6.02.9200.16384 (Danish), 7/26/2012 04:42:15, 191216 bytes Name: AMD-konfiguration til adressekort Device ID: PCI\VEN_1022&DEV_1101&SUBSYS_00000000&REV_00\3&2B8E0B4B&0&C1 Driver: n/a Name: SDA Standard-kompatibel SD-værtscontroller Device ID: PCI\VEN_104C&DEV_8034&SUBSYS_C00A1631&REV_00\3&2B8E0B4B&0&84 Driver: C:\Windows\system32\DRIVERS\sdbus.sys, 6.02.9200.16654 (Danish), 6/29/2013 05:29:21, 159576 bytes Driver: C:\Windows\system32\DRIVERS\dumpsd.sys, 6.02.9200.16654 (Danish), 6/29/2013 05:29:15, 105304 bytes Name: PCI standard PCI til PCI-bro Device ID: PCI\VEN_1002&DEV_5A3F&SUBSYS_5A3F1002&REV_00\3&2B8E0B4B&0&08 Driver: C:\Windows\system32\DRIVERS\pci.sys, 6.02.9200.16384 (Danish), 7/26/2012 04:42:15, 191216 bytes Name: Ralink RT2500 Wireless LAN Card Device ID: PCI\VEN_1814&DEV_0201&SUBSYS_25601814&REV_01\3&2B8E0B4B&0&88 Driver: C:\Windows\system32\DRIVERS\RT2500.sys, 3.02.0000.0000 (English), 6/2/2006 05:37:58, 236800 bytes Name: PCI standard PCI til PCI-bro Device ID: PCI\VEN_10B9&DEV_5249&SUBSYS_00000000&REV_00\3&2B8E0B4B&0&C8 Driver: C:\Windows\system32\DRIVERS\pci.sys, 6.02.9200.16384 (Danish), 7/26/2012 04:42:15, 191216 bytes Name: ATI MOBILITY RADEON XPRESS 200 Device ID: PCI\VEN_1002&DEV_5955&SUBSYS_C00A1631&REV_00\4&311ACC57&0&2808 Driver: n/a Name: ATI Unified AVStream Driver Device ID: ROOT\UNKNOWN\0000 Driver: C:\Windows\system32\drivers\atinavrr.sys, 6.14.0010.0338 (English), 2/4/2009 03:28:16, 1015296 bytes Driver: C:\Windows\system32\atinpprr.ax, 6.14.0010.0338 (English), 2/4/2009 03:29:02, 110592 bytes Driver: C:\Windows\system32\DRIVERS\CTRL.s3, 9/12/2008 22:13:06, 1498391 bytes Driver: C:\Windows\system32\DRIVERS\CTRLT511.s3, 9/12/2008 22:13:38, 1569515 bytes Driver: C:\Windows\system32\DRIVERS\NcRemotePci.SYS, 1.06.0009.0011 (English), 12/5/2008 06:51:38, 12672 bytes Driver: C:\Windows\system32\drivers\BdaSup.sys, 6.02.9200.16384 (English), 7/26/2012 03:35:52, 12416 bytes Driver: C:\Windows\system32\drivers\drmk.sys, 6.02.9200.16433 (English), 10/11/2012 05:39:47, 83456 bytes Driver: C:\Windows\system32\drivers\portcls.sys, 6.02.9200.16433 (Danish), 10/11/2012 05:37:50, 218112 bytes Name: Texas Instruments 1394 OHCI-kompatibel værtscontroller Device ID: PCI\VEN_104C&DEV_8032&SUBSYS_C00A1631&REV_00\3&2B8E0B4B&0&82 Driver: C:\Windows\system32\DRIVERS\1394ohci.sys, 6.02.9200.16384 (Danish), 7/26/2012 03:33:52, 173056 bytes ------------------ DirectShow Filters ------------------ DirectShow Filters: WMAudio Decoder DMO,0x00800800,1,1,WMADMOD.DLL,6.02.9200.16384 WMAPro over S/PDIF DMO,0x00600800,1,1,WMADMOD.DLL,6.02.9200.16384 WMSpeech Decoder DMO,0x00600800,1,1,WMSPDMOD.DLL,6.02.9200.16384 MP3 Decoder DMO,0x00600800,1,1,mp3dmod.dll,6.02.9200.16384 Mpeg4s Decoder DMO,0x00800001,1,1,mp4sdecd.dll,6.02.9200.16496 WMV Screen decoder DMO,0x00600800,1,1,wmvsdecd.dll,6.02.9200.16384 WMVideo Decoder DMO,0x00800001,1,1,wmvdecod.dll,6.02.9200.16604 Mpeg43 Decoder DMO,0x00800001,1,1,mp43decd.dll,6.02.9200.16384 Mpeg4 Decoder DMO,0x00800001,1,1,mpg4decd.dll,6.02.9200.16384 WMT VIH2 Fix,0x00200000,1,1,WLXVAFilt.dll,16.04.3505.0912 Record Queue,0x00200000,1,1,WLXVAFilt.dll,16.04.3505.0912 WMT Switch Filter,0x00200000,1,1,WLXVAFilt.dll,16.04.3505.0912 WMT Virtual Renderer,0x00200000,1,0,WLXVAFilt.dll,16.04.3505.0912 WMT DV Extract,0x00200000,1,1,WLXVAFilt.dll,16.04.3505.0912 WMT Virtual Source,0x00200000,0,1,WLXVAFilt.dll,16.04.3505.0912 WMT Sample Information Filter,0x00200000,1,1,WLXVAFilt.dll,16.04.3505.0912 ATI Ticker,0x00200000,0,1,Ticker.ax, DV Muxer,0x00400000,0,0,qdv.dll,6.06.9200.16384 Color Space Converter,0x00400001,1,1,quartz.dll,6.06.9200.16384 WM ASF Reader,0x00400000,0,0,qasf.dll,12.00.9200.16384 AVI Splitter,0x00600000,1,1,quartz.dll,6.06.9200.16384 VGA 16 Color Ditherer,0x00400000,1,1,quartz.dll,6.06.9200.16384 SBE2MediaTypeProfile,0x00200000,0,0,sbe.dll,6.06.9200.16384 Microsoft DTV-DVD Video Decoder,0x005fffff,2,4,msmpeg2vdec.dll,12.00.9200.16429 AC3 Parser Filter,0x00600000,1,1,mpg2splt.ax,6.06.9200.16384 StreamBufferSink,0x00200000,0,0,sbe.dll,6.06.9200.16384 MJPEG Decompressor,0x00600000,1,1,quartz.dll,6.06.9200.16384 MPEG-I Stream Splitter,0x00600000,1,2,quartz.dll,6.06.9200.16384 SAMI (CC) Parser,0x00400000,1,1,quartz.dll,6.06.9200.16384 VBI Codec,0x00600000,1,4,VBICodec.ax,6.06.9200.16384 MPEG-2 Splitter,0x005fffff,1,0,mpg2splt.ax,6.06.9200.16384 Closed Captions Analysis Filter,0x00200000,2,5,cca.dll,6.06.9200.16384 SBE2FileScan,0x00200000,0,0,sbe.dll,6.06.9200.16384 Microsoft MPEG-2 Video Encoder,0x00200000,1,1,msmpeg2enc.dll,12.00.9200.16384 Internal Script Command Renderer,0x00800001,1,0,quartz.dll,6.06.9200.16384 MPEG Audio Decoder,0x03680001,1,1,quartz.dll,6.06.9200.16384 MMACE ProcAmp,0x00200000,0,2,MMACEFilters.dll, DV Splitter,0x00600000,1,2,qdv.dll,6.06.9200.16384 Video Mixing Renderer 9,0x00200000,1,0,quartz.dll,6.06.9200.16384 Microsoft MPEG-2 Encoder,0x00200000,2,1,msmpeg2enc.dll,12.00.9200.16384 ACM Wrapper,0x00600000,1,1,quartz.dll,6.06.9200.16384 Video Renderer,0x00800001,1,0,quartz.dll,6.06.9200.16384 MPEG-2 Video Stream Analyzer,0x00200000,0,0,sbe.dll,6.06.9200.16384 Line 21 Decoder,0x00600000,1,1,qdvd.dll,6.06.9200.16384 Video Port Manager,0x00600000,2,1,quartz.dll,6.06.9200.16384 Video Renderer,0x00400000,1,0,quartz.dll,6.06.9200.16384 File Writer,0x00200000,1,0,WLXVAFilt.dll,16.04.3505.0912 VPS Decoder,0x00200000,0,0,WSTPager.ax,6.06.9200.16384 WM ASF Writer,0x00400000,0,0,qasf.dll,12.00.9200.16384 VBI Surface Allocator,0x00600000,1,1,vbisurf.ax,6.02.9200.16384 MMACE SoftEmu,0x00200000,0,2,MMACEFilters.dll, File writer,0x00200000,1,0,qcap.dll,6.06.9200.16384 DVD Navigator,0x00200000,0,3,qdvd.dll,6.06.9200.16384 MMACE DeInterlace,0x00200000,0,2,MMACEFilters.dll, Overlay Mixer2,0x00200000,1,1,qdvd.dll,6.06.9200.16384 AVI Draw,0x00600064,9,1,quartz.dll,6.06.9200.16384 Microsoft MPEG-2 Audio Encoder,0x00200000,1,1,msmpeg2enc.dll,12.00.9200.16384 WST Pager,0x00200000,1,1,WSTPager.ax,6.06.9200.16384 MPEG-2 Demultiplexer,0x00600000,1,1,mpg2splt.ax,6.06.9200.16384 DV Video Decoder,0x00800000,1,1,qdv.dll,6.06.9200.16384 SampleGrabber,0x00200000,1,1,qedit.dll,6.06.9200.16628 Null Renderer,0x00200000,1,0,qedit.dll,6.06.9200.16628 MPEG-2 Sections and Tables,0x005fffff,1,0,Mpeg2Data.ax,6.06.9200.16384 Microsoft AC3 Encoder,0x00200000,1,1,msac3enc.dll,6.02.9200.16384 StreamBufferSource,0x00200000,0,0,sbe.dll,6.06.9200.16384 Smart Tee,0x00200000,1,2,qcap.dll,6.06.9200.16384 Overlay Mixer,0x00200000,0,0,qdvd.dll,6.06.9200.16384 AVI Decompressor,0x00600000,1,1,quartz.dll,6.06.9200.16384 AVI/WAV File Source,0x00400000,0,2,quartz.dll,6.06.9200.16384 Wave Parser,0x00400000,1,1,quartz.dll,6.06.9200.16384 MIDI Parser,0x00400000,1,1,quartz.dll,6.06.9200.16384 Multi-file Parser,0x00400000,1,1,quartz.dll,6.06.9200.16384 File stream renderer,0x00400000,1,1,quartz.dll,6.06.9200.16384 Microsoft DTV-DVD Audio Decoder,0x005fffff,1,1,msmpeg2adec.dll,12.00.8506.0000 StreamBufferSink2,0x00200000,0,0,sbe.dll,6.06.9200.16384 AVI Mux,0x00200000,1,0,qcap.dll,6.06.9200.16384 Line 21 Decoder 2,0x00600002,1,1,quartz.dll,6.06.9200.16384 File Source (Async.),0x00400000,0,1,quartz.dll,6.06.9200.16384 File Source (URL),0x00400000,0,1,quartz.dll,6.06.9200.16384 AudioRecorder WAV Dest,0x00200000,0,0,WavDest.dll, AudioRecorder Wave Form,0x00200000,0,0,WavDest.dll, SoundRecorder Null Renderer,0x00200000,0,0,WavDest.dll, Infinite Pin Tee Filter,0x00200000,1,1,qcap.dll,6.06.9200.16384 Enhanced Video Renderer,0x00200000,1,0,evr.dll,6.02.9200.16384 BDA MPEG2 Transport Information Filter,0x00200000,2,0,psisrndr.ax,6.06.9200.16384 MPEG Video Decoder,0x40000001,1,1,quartz.dll,6.06.9200.16384 WDM Streaming Tee/Splitter Devices: Tee/Sink-to-Sink-konverteringsprogram,0x00200000,1,1,ksproxy.ax,6.02.9200.16384 Video Compressors: WMVideo8 Encoder DMO,0x00600800,1,1,wmvxencd.dll,6.02.9200.16384 WMVideo9 Encoder DMO,0x00600800,1,1,wmvencod.dll,6.02.9200.16384 MSScreen 9 encoder DMO,0x00600800,1,1,wmvsencd.dll,6.02.9200.16384 DV Video Encoder,0x00200000,0,0,qdv.dll,6.06.9200.16384 MJPEG Compressor,0x00200000,0,0,quartz.dll,6.06.9200.16384 Cinepak Codec efter Radius,0x00200000,1,1,qcap.dll,6.06.9200.16384 Intel IYUV codec,0x00200000,1,1,qcap.dll,6.06.9200.16384 Intel IYUV codec,0x00200000,1,1,qcap.dll,6.06.9200.16384 Microsoft RLE,0x00200000,1,1,qcap.dll,6.06.9200.16384 Microsoft Video 1,0x00200000,1,1,qcap.dll,6.06.9200.16384 Audio Compressors: WM Speech Encoder DMO,0x00600800,1,1,WMSPDMOE.DLL,6.02.9200.16384 WMAudio Encoder DMO,0x00600800,1,1,WMADMOE.DLL,6.02.9200.16384 IMA ADPCM,0x00200000,1,1,quartz.dll,6.06.9200.16384 PCM,0x00200000,1,1,quartz.dll,6.06.9200.16384 Microsoft ADPCM,0x00200000,1,1,quartz.dll,6.06.9200.16384 GSM 6.10,0x00200000,1,1,quartz.dll,6.06.9200.16384 CCITT A-Law,0x00200000,1,1,quartz.dll,6.06.9200.16384 CCITT u-Law,0x00200000,1,1,quartz.dll,6.06.9200.16384 MPEG Layer-3,0x00200000,1,1,quartz.dll,6.06.9200.16384 Audio Capture Sources: Lydstyrke til mikrofon (Realtek High Definition Audio),0x00200000,0,0,qcap.dll,6.06.9200.16384 PBDA CP Filters: PBDA DTFilter,0x00600000,1,1,CPFilters.dll,6.06.9200.16384 PBDA ETFilter,0x00200000,0,0,CPFilters.dll,6.06.9200.16384 PBDA PTFilter,0x00200000,0,0,CPFilters.dll,6.06.9200.16384 Midi Renderers: Default MidiOut Device,0x00800000,1,0,quartz.dll,6.06.9200.16384 Microsoft GS Wavetable Synth,0x00200000,1,0,quartz.dll,6.06.9200.16384 WDM Streaming Capture Devices: ,0x00000000,0,0,, WDM Streaming Rendering Devices: Realtek HD Audio output,0x00200000,1,1,ksproxy.ax,6.02.9200.16384 BDA Network Providers: Microsoft ATSC Network Provider,0x00200000,0,1,MSDvbNP.ax,6.06.9200.16384 Microsoft DVBC Network Provider,0x00200000,0,1,MSDvbNP.ax,6.06.9200.16384 Microsoft DVBS Network Provider,0x00200000,0,1,MSDvbNP.ax,6.06.9200.16384 Microsoft DVBT Network Provider,0x00200000,0,1,MSDvbNP.ax,6.06.9200.16384 Microsoft Network Provider,0x00200000,0,1,MSNP.ax,6.06.9200.16384 Multi-Instance Capable VBI Codecs: VBI Codec,0x00600000,1,4,VBICodec.ax,6.06.9200.16384 BDA Transport Information Renderers: BDA MPEG2 Transport Information Filter,0x00600000,2,0,psisrndr.ax,6.06.9200.16384 MPEG-2 Sections and Tables,0x00600000,1,0,Mpeg2Data.ax,6.06.9200.16384 BDA CP/CA Filters: Decrypt/Tag,0x00600000,1,1,EncDec.dll,6.06.9200.16384 Encrypt/Tag,0x00200000,0,0,EncDec.dll,6.06.9200.16384 PTFilter,0x00200000,0,0,EncDec.dll,6.06.9200.16384 XDS Codec,0x00200000,0,0,EncDec.dll,6.06.9200.16384 WDM Streaming Communication Transforms: Tee/Sink-to-Sink-konverteringsprogram,0x00200000,1,1,ksproxy.ax,6.02.9200.16384 Audio Renderers: Højttalere (Realtek High Definition Audio),0x00200000,1,0,quartz.dll,6.06.9200.16384 Default DirectSound Device,0x00800000,1,0,quartz.dll,6.06.9200.16384 Default WaveOut Device,0x00200000,1,0,quartz.dll,6.06.9200.16384 DirectSound: Højttalere (Realtek High Definition Audio),0x00200000,1,0,quartz.dll,6.06.9200.16384 ---------------------------- Preferred DirectShow Filters ---------------------------- [HKEY_LOCAL_MACHINE\Software\Microsoft\DirectShow\Preferred] <media subtype GUID>, [<filter friendly name>, ]<filter CLSID> MEDIASUBTYPE_WMAUDIO_LOSSLESS, WMAudio Decoder DMO, CLSID_CWMADecMediaObject MEDIASUBTYPE_MPG4, Mpeg4 Decoder DMO, CLSID_CMpeg4DecMediaObject MEDIASUBTYPE_WVC1, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject WMMEDIASUBTYPE_WMSP2, WMSpeech Decoder DMO, CLSID_CWMSPDecMediaObject {64687664-0000-0010-8000-00AA00389B71}, DV Video Decoder, CLSID_DVVideoCodec MEDIASUBTYPE_h264, Microsoft DTV-DVD Video Decoder, CLSID_CMPEG2VidDecoderDS MEDIASUBTYPE_MPEG1AudioPayload, MPEG Audio Decoder, CLSID_CMpegAudioCodec {78766964-0000-0010-8000-00AA00389B71}, Mpeg4s Decoder DMO, CLSID_CMpeg4sDecMediaObject MEDIASUBTYPE_WMAUDIO3, WMAudio Decoder DMO, CLSID_CWMADecMediaObject MEDIASUBTYPE_WMV2, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject MEDIASUBTYPE_MPEG2_AUDIO, Microsoft DTV-DVD Audio Decoder, CLSID_CMPEG2AudDecoderDS {64697678-0000-0010-8000-00AA00389B71}, Mpeg4s Decoder DMO, CLSID_CMpeg4sDecMediaObject WMMEDIASUBTYPE_MP3, MP3 Decoder DMO, CLSID_CMP3DecMediaObject MEDIASUBTYPE_mp42, Mpeg4 Decoder DMO, CLSID_CMpeg4DecMediaObject MEDIASUBTYPE_MSS1, WMV Screen decoder DMO, CLSID_CMSSCDecMediaObject MEDIASUBTYPE_WVP2, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject MEDIASUBTYPE_WMV1, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject MEDIASUBTYPE_WMVP, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject MEDIASUBTYPE_WMV3, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject MEDIASUBTYPE_WMVR, WMVideo Decoder DMO, CLSID_CWMVDecMediaObject MEDIASUBTYPE_MJPG, MJPEG Decompressor, CLSID_MjpegDec MEDIASUBTYPE_mp43, Mpeg43 Decoder DMO, CLSID_CMpeg43DecMediaObject MEDIASUBTYPE_MSS2, WMV Screen decoder DMO, CLSID_CMSSCDecMediaObject {64737664-0000-0010-8000-00AA00389B71}, DV Video Decoder, CLSID_DVVideoCodec WMMEDIASUBTYPE_WMAudioV8, WMAudio Decoder DMO, CLSID_CWMADecMediaObject {44495658-0000-0010-8000-00AA00389B71}, Mpeg4s Decoder DMO, CLSID_CMpeg4sDecMediaObject WMMEDIASUBTYPE_WMSP1, WMSpeech Decoder DMO, CLSID_CWMSPDecMediaObject MEDIASUBTYPE_RAW_AAC1, Microsoft DTV-DVD Audio Decoder, CLSID_CMPEG2AudDecoderDS MEDIASUBTYPE_MP43, Mpeg43 Decoder DMO, CLSID_CMpeg43DecMediaObject {6C737664-0000-0010-8000-00AA00389B71}, DV Video Decoder, CLSID_DVVideoCodec MEDIASUBTYPE_AVC1, Microsoft DTV-DVD Video Decoder, CLSID_CMPEG2VidDecoderDS MEDIASUBTYPE_MPEG1Payload, MPEG Video Decoder, CLSID_CMpegVideoCodec {20637664-0000-0010-8000-00AA00389B71}, DV Video Decoder, CLSID_DVVideoCo
pivotal-bank / Quotes ServiceThis service is a spring boot application responsible for providing up to date company and ticker/quote information.
LaurentVeyssier / Dash App To Monitor Market DataDash app pulling various financial-related information based on an input ticker code
