IT-kurs
IT kompetanse
Du har valgt: Hordaland
Nullstill
Filter
Ferdig

-

29 treff ( i Hordaland ) i IT kompetanse
 

1 år 72 000 kr
På forespørsel
Er du spesielt interessert i datamaskinar, programvare og internett? [+]
Har du lyst på meir kunnskap, inspirasjon og ferdigheitar? Utvikle gode og kreative websider, grafikk, 3D og mye anna?    Eit år på data- og internettlinja er nyttig for deg som planlegg ei yrkeskarriere innan data. Det er også nyttig for deg som vil bruke datamaskinen som ei fritidssyssel. Data- og internettlinja gir deg nemleg tid til spesialisering, samtidig som vi går i breidda. Gjennom året blir du kjend med ulike standardprogramvarer, LAN, maskinvare, operativsystem, språk og metodar. Alt som trengst for å utvikle web-sider, spel og liknande. Elevane brukar sine eigne datamaskinar. Data- og internettlinja Data- og internettlinja er eit allsidig og kreativt tilbod med grunnleggjande opplæring in-nan data, programvare og utvikling av gode websider. Her lærer du mellom anna om digi-talbildebehandling, lyd, videoredigering, flash, animering, html, PHP.  Du vil også jobbe ein del med programmering og 3D teikning, samt sjølvvalde tema og fordjupingar. Vi brukar dei mest vanlege verktøy for data i privat - og arbeidsliv.  Klasserommet er samla i eit felles 100Mb-nettverk. Skulen har breiband og klasserommet vårt er utstyr med videokanon, scanner, digital kamera/video, skrivarar med meir.  Elevane tar med seg sin eigen datamaskin og bruker den i studia. Mange bygger om på eigen datamaskin når dei kjem til skulen.     Målet er at du etter eit år på Voss FHS skal ha testa ut nye og kreative måtar å bruke datamaskinen på. Slik får du eit godt grunnlag for å bruke verktøya/programma vidare i utdanning, jobb eller fritid.     UndervisningaNokon er sterke på det grafiske, nokre på koding og andre på innhald. Moderne webut-vikling er difor ofte basert på at ein jobbar i team. Det skal vi også gjere. Slik lærer vi best – og får det kjekt saman.    Ulike kunnskapsnivåHovedutfordinga vår er at elevane er på svært ulike kunnskapsnivå. Difor er behovet ulikt frå tema til tema, frå elev til elev. Noen kan mykje frå før mens andre er nybegynnarar. Dei som kan mykje om eit tema ønsker gjerne å utvikle denne kunnskapen, kan hende med meir fokus på det faglege. Vi gjer alt vi kan for å følgje opp dei individuelle behova på best mulig måte.   InndelingOmlag halvparten av undervisninga er felles for heile klassa. Her går vi gjennom tema som er nye for alle. Omlag ein fjerdedel av tida brukast på tema du kanskje mestrar frå før. Da kan du i tilfelle velje å bruke denne tida på eigne prosjekt. Den siste fjerdedelen er sett av til eigne eller felles prosjekt innafor tema de finn mest interessant. Samarbeid med Film- og fotolinja eller Musikklinja er også mogeleg her. På same måte som på dei andre linjene, kan elevane bruke lokala og utstyret så mykje dei vil på fritida.   TemaFør jul vil vi ha ein klar struktur. Etter jul kjem tema som kan stå meir aleine. I starten set vi oss inn i html, bildebehandlingsprogram og teikneprogram. Neste steg er mellom anna Dreamweaver, PHP, Flash og animeringer. Vi brukar grunnleggjande programmering i Visual Basic eller Flash og greie program for å teikne i 3D. Dessutan er vi innom tema som Windows, Linuxs, OSX, nettverk / LAN, kontor-programmer, modding av spel, re-digering av musikk, lyd og video samt bygging av maskinar. I og med at spelindustrien har blitt større enn filmindustrien i omsetning, vil vi dessutan jobbe ein del med gaming og modifisering av spel. Er dette ting du allerede kan mykje om, får du god tid til å jobbe deg vidare inn i dei ulike tema.    BigBenStudieturDet har blitt ein tradisjon at klassen reiser til utlandet, for eksempel London, for å sjå på datamaskinen som kreativt verktøy.  [-]
Les mer
Oslo 5 dager 35 000 kr
22 Apr
22 Apr
10 Jun
CEH: Certified Ethical Hacker v12 [+]
CEH: Certified Ethical Hacker v12 [-]
Les mer
Oslo 1 dag 9 500 kr
06 May
06 May
03 Jun
AI-050: Develop Generative AI Solutions with Azure OpenAI Service [+]
AI-050: Develop Generative AI Solutions with Azure OpenAI Service [-]
Les mer
Oslo Trondheim Og 1 annet sted 2 dager 16 900 kr
25 Apr
25 Apr
06 Jun
Modern Service Oriented Architecture [+]
Modern Service Oriented Architecture [-]
Les mer
Oslo 5 dager 30 000 kr
22 Apr
22 Apr
https://www.glasspaper.no/kurs/dp-203-data-engineering-on-microsoft-azure/ [+]
DP-203: Data Engineering on Microsoft Azure [-]
Les mer
Oslo 5 dager 30 000 kr
22 Apr
22 Apr
27 May
AI-102: Designing and Implementing a Microsoft Azure AI Solution [+]
AI-102: Designing and Implementing a Microsoft Azure AI Solution [-]
Les mer
Nettstudie 1 semester 4 980 kr
På forespørsel
Datamaskinarkitektur: De viktigste komponentene og deres virkemåte og oppbygging: CPU, buss, lagerteknologier (cache og ulike typer primær- og sekundærlager), kontrollere... [+]
  Studieår: 2013-2014   Gjennomføring: Vår Antall studiepoeng: 5.0 Forutsetninger: Ingen Innleveringer: For å kunne gå opp til eksamen må 8 utvalgte øvingsoppgaver være godkjente. Det settes krav til at studenten har tilgang til en PC som kan brukes til praktiske maskinvare- og programvareendringer for å trene på feildiagnostisering og feilretting. Maskinen kan gjerne være en eldre og utdatert maskin, men den må virke. Personlig veileder: ja Vurderingsform: Skriftlig eksamen, individuell, 3 timer. Ansvarlig: Geir Ove Rosvold Eksamensdato: 20.12.13 / 23.05.14         Læremål: KUNNSKAPER:Kandidaten:- har innsikt i datamaskinens virkemåte både fra et teoretisk og praktisk ståsted- kjenner godt til de enkelte komponenter i datamaskinen og hvordan de virker sammen- kjenner til de grunnleggende matematikk- og informatikktema (tallsystemer, datarepresentasjon, lokalitet) som er relevante for emnets tekniske hovedtemaer FERDIGHETER:Kandidaten:- kan gjøre nytte av sine teoretiske kunnskaper inne emnets tema i relevant praktisk problemløsing- kan optimalisere, oppgradere og holde ved like en datamaskin, samt diagnostisere, feilsøke og reparere en datamaskin ved de vanligste feilsituasjoner GENERELL KOMPETANSE:Kandidaten:- har kompetanse til selvstendig både å formidle og å ta i bruk sine kunnskaper og ferdigheter innen emnets tema- kan i en praktisk driftssituasjon, forklare og gjøre bruk av sin kunnskap både innen hvert enkelt tema i faget og på tvers av temaene Innhold:Datamaskinarkitektur: De viktigste komponentene og deres virkemåte og oppbygging: CPU, buss, lagerteknologier (cache og ulike typer primær- og sekundærlager), kontrollere og io-utstyr, avbruddsmekanismen, DMA, brikkesett og moderne systemarkitektur, ulike maskinklasser. Prosessorarkitektur: Pipeline, superskalaritet, dynamisk utføring, mikrooperasjoner, kontrollenheten, hardkoding kontra mikroprogrammering, RISC og CISC. Teori-tema: Tallsystemer. Datarepresentasjon og -aritmetikk. Buss- og lagerhierarki. Cache og lokalitet. Høynivåspråk kontra assembly. Praktisk driftsarbeid: Kabinett, hovedkort, ulike prosessorer, buss, RAM, cache, BIOS. Lyd-, nettverks-og skjermkort. Sekundærminne (Harddisk, CD-ROM, DVD, tape og andre typer). Avbruddsmekanismen, I/O, DMA og busmastering. Å oppdage og rette feil. Boot-prosessen. Formatering, partisjonering.Les mer om faget her [-]
Les mer
Nettstudie 1 semester 4 980 kr
På forespørsel
Utviklingsprosesser. Modellering. UML. Verktøy. Objektorientert analyse Objektorientert design. Bruk av arkitektoniske stiler og design mønstre. Implementasjon og test. [+]
Studieår: 2013-2014   Gjennomføring: Høst Antall studiepoeng: 5.0 Forutsetninger: Erfaring fra et objektorientert programmeringsspråk, kjennskap til prosjektarbeid Innleveringer: Innleverte øvinger. Det blir gitt 10 øvinger, 8 må være godkjent for å kunne gå opp til eksamen. Personlig veileder: ja Vurderingsform: 4 timer skriftlig eksamen. Ansvarlig: Tore Berg Hansen Eksamensdato: 12.12.13         Læremål: Forventet læringsutbytte:Etter å ha gjennomført emnet Objektorientert systemutvikling skal studenten ha følgende samlete læringsutbytte: KUNNSKAPER:Kandidaten:- kan definere, gjenkjenne og forklare de grunnleggende konsepter for utvikling av store programvaresystemer basert på det objektorienterte paradigme- argumentere for betydningen av å følge en prosessmodell- argumentere for fordelene med smidige prosesser- argumentere for modellbasert utvikling- beskrive modellene som brukes i objektorientert systemutvikling og hvordan de henger sammen- forklare begrepene arkitektoniske stiler og designmønstre FERDIGHETER:Kandidaten:- kan demonstrere den systematiske gangen fra krav, via arkitektonisk og detaljert design, til ferdig kodet og implementert system GENERELL KOMPETANSE:Kandidaten:- er klar over at utvikling av store programvaresystemer er ingeniørarbeid- er seg bevisst at utvikling av komplekse programvaresystemer krever koordinert innsats av et velfungerende team som følger en definert, smidig prosess- er opptatt av tett kontakt med alle interessenter for å oppnå et godt resultat Innhold:Utviklingsprosesser. Modellering. UML. Verktøy. Objektorientert analyse Objektorientert design. Bruk av arkitektoniske stiler og design mønstre. Implementasjon og test.Les mer om faget her Påmeldingsfrist: 25.08.13 / 25.01.14         Dette faget går: Høst 2013    Fag Objektorientert systemutvikling 4980,-         Semesteravgift og eksamenskostnader kommer i tillegg.    [-]
Les mer
Oslo Trondheim Og 1 annet sted 2 dager 16 900 kr
27 Jun
26 Sep
10 Oct
Modern Application Architecture [+]
Modern Application Architecture [-]
Les mer
Virtuelt klasserom 3 dager 20 000 kr
Learn how to operate machine learning solutions at cloud scale using Azure Machine Learning. [+]
 This course teaches you to leverage your existing knowledge of Python and machine learning to manage data ingestion and preparation, model training and deployment, and machine learning solution monitoring in Microsoft Azure. TARGET AUDIENCE This course is designed for data scientists with existing knowledge of Python and machine learning frameworks like Scikit-Learn, PyTorch, and Tensorflow, who want to build and operate machine learning solutions in the cloud. COURSE CONTENT Module 1: Introduction to Azure Machine Learning In this module, you will learn how to provision an Azure Machine Learning workspace and use it to manage machine learning assets such as data, compute, model training code, logged metrics, and trained models. You will learn how to use the web-based Azure Machine Learning studio interface as well as the Azure Machine Learning SDK and developer tools like Visual Studio Code and Jupyter Notebooks to work with the assets in your workspace. Getting Started with Azure Machine Learning Azure Machine Learning Tools Lab : Creating an Azure Machine Learning WorkspaceLab : Working with Azure Machine Learning Tools After completing this module, you will be able to Provision an Azure Machine Learning workspace Use tools and code to work with Azure Machine Learning Module 2: No-Code Machine Learning with Designer This module introduces the Designer tool, a drag and drop interface for creating machine learning models without writing any code. You will learn how to create a training pipeline that encapsulates data preparation and model training, and then convert that training pipeline to an inference pipeline that can be used to predict values from new data, before finally deploying the inference pipeline as a service for client applications to consume. Training Models with Designer Publishing Models with Designer Lab : Creating a Training Pipeline with the Azure ML DesignerLab : Deploying a Service with the Azure ML Designer After completing this module, you will be able to Use designer to train a machine learning model Deploy a Designer pipeline as a service Module 3: Running Experiments and Training Models In this module, you will get started with experiments that encapsulate data processing and model training code, and use them to train machine learning models. Introduction to Experiments Training and Registering Models Lab : Running ExperimentsLab : Training and Registering Models After completing this module, you will be able to Run code-based experiments in an Azure Machine Learning workspace Train and register machine learning models Module 4: Working with Data Data is a fundamental element in any machine learning workload, so in this module, you will learn how to create and manage datastores and datasets in an Azure Machine Learning workspace, and how to use them in model training experiments. Working with Datastores Working with Datasets Lab : Working with DatastoresLab : Working with Datasets After completing this module, you will be able to Create and consume datastores Create and consume datasets Module 5: Compute Contexts One of the key benefits of the cloud is the ability to leverage compute resources on demand, and use them to scale machine learning processes to an extent that would be infeasible on your own hardware. In this module, you'll learn how to manage experiment environments that ensure consistent runtime consistency for experiments, and how to create and use compute targets for experiment runs. Working with Environments Working with Compute Targets Lab : Working with EnvironmentsLab : Working with Compute Targets After completing this module, you will be able to Create and use environments Create and use compute targets Module 6: Orchestrating Operations with Pipelines Now that you understand the basics of running workloads as experiments that leverage data assets and compute resources, it's time to learn how to orchestrate these workloads as pipelines of connected steps. Pipelines are key to implementing an effective Machine Learning Operationalization (ML Ops) solution in Azure, so you'll explore how to define and run them in this module. Introduction to Pipelines Publishing and Running Pipelines Lab : Creating a PipelineLab : Publishing a Pipeline After completing this module, you will be able to Create pipelines to automate machine learning workflows Publish and run pipeline services Module 7: Deploying and Consuming Models Models are designed to help decision making through predictions, so they're only useful when deployed and available for an application to consume. In this module learn how to deploy models for real-time inferencing, and for batch inferencing. Real-time Inferencing Batch Inferencing Lab : Creating a Real-time Inferencing ServiceLab : Creating a Batch Inferencing Service After completing this module, you will be able to Publish a model as a real-time inference service Publish a model as a batch inference service Module 8: Training Optimal Models By this stage of the course, you've learned the end-to-end process for training, deploying, and consuming machine learning models; but how do you ensure your model produces the best predictive outputs for your data? In this module, you'll explore how you can use hyperparameter tuning and automated machine learning to take advantage of cloud-scale compute and find the best model for your data. Hyperparameter Tuning Automated Machine Learning Lab : Tuning HyperparametersLab : Using Automated Machine Learning After completing this module, you will be able to Optimize hyperparameters for model training Use automated machine learning to find the optimal model for your data Module 9: Interpreting Models Many of the decisions made by organizations and automated systems today are based on predictions made by machine learning models. It's increasingly important to be able to understand the factors that influence the predictions made by a model, and to be able to determine any unintended biases in the model's behavior. This module describes how you can interpret models to explain how feature importance determines their predictions. Introduction to Model Interpretation using Model Explainers Lab : Reviewing Automated Machine Learning ExplanationsLab : Interpreting Models After completing this module, you will be able to Generate model explanations with automated machine learning Use explainers to interpret machine learning models Module 10: Monitoring Models After a model has been deployed, it's important to understand how the model is being used in production, and to detect any degradation in its effectiveness due to data drift. This module describes techniques for monitoring models and their data. Monitoring Models with Application Insights Monitoring Data Drift Lab : Monitoring a Model with Application InsightsLab : Monitoring Data Drift After completing this module, you will be able to Use Application Insights to monitor a published model Monitor data drift   [-]
Les mer
1 dag 8 000 kr
This course introduces fundamentals concepts related to artificial intelligence (AI), and the services in Microsoft Azure that can be used to create AI solutions. [+]
COURSE OVERVIEW The course is not designed to teach students to become professional data scientists or software developers, but rather to build awareness of common AI workloads and the ability to identify Azure services to support them. The course is designed as a blended learning experience that combines instructor-led training with online materials on the Microsoft Learn platform (https://azure.com/learn). The hands-on exercises in the course are based on Learn modules, and students are encouraged to use the content on Learn as reference materials to reinforce what they learn in the class and to explore topics in more depth. TARGET AUDIENCE The Azure AI Fundamentals course is designed for anyone interested in learning about the types of solution artificial intelligence (AI) makes possible, and the services on Microsoft Azure that you can use to create them. You don’t need to have any experience of using Microsoft Azure before taking this course, but a basic level of familiarity with computer technology and the Internet is assumed. Some of the concepts covered in the course require a basic understanding of mathematics, such as the ability to interpret charts. The course includes hands-on activities that involve working with data and running code, so a knowledge of fundamental programming principles will be helpful. COURSE OBJECTIVES  After completing this course, you will be able to: Describe Artificial Intelligence workloads and considerations Describe fundamental principles of machine learning on Azure Describe features of computer vision workloads on Azure Describe features of Natural Language Processing (NLP) workloads on Azure Describe features of conversational AI workloads on Azure   COURSE CONTENT Module 1: Introduction to AI In this module, you'll learn about common uses of artificial intelligence (AI), and the different types of workload associated with AI. You'll then explore considerations and principles for responsible AI development. Artificial Intelligence in Azure Responsible AI After completing this module you will be able to Describe Artificial Intelligence workloads and considerations Module 2: Machine Learning Machine learning is the foundation for modern AI solutions. In this module, you'll learn about some fundamental machine learning concepts, and how to use the Azure Machine Learning service to create and publish machine learning models. Introduction to Machine Learning Azure Machine Learning After completing this module you will be able to Describe fundamental principles of machine learning on Azure Module 3: Computer Vision Computer vision is a the area of AI that deals with understanding the world visually, through images, video files, and cameras. In this module you'll explore multiple computer vision techniques and services. Computer Vision Concepts Computer Vision in Azure After completing this module you will be able to Describe features of computer vision workloads on Azure Module 4: Natural Language Processing This module describes scenarios for AI solutions that can process written and spoken language. You'll learn about Azure services that can be used to build solutions that analyze text, recognize and synthesize speech, translate between languages, and interpret commands. After completing this module you will be able to Describe features of Natural Language Processing (NLP) workloads on Azure Module 5: Conversational AI Conversational AI enables users to engage in a dialog with an AI agent, or *bot*, through communication channels such as email, webchat interfaces, social media, and others. This module describes some basic principles for working with bots and gives you an opportunity to create a bot that can respond intelligently to user questions. Conversational AI Concepts Conversational AI in Azure After completing this module you will be able to Describe features of conversational AI workloads on Azure   TEST CERTIFICATION Recommended as preparation for the following exams: Exam AI-900: Microsoft Azure AI Fundamentals. HVORFOR VELGE SG PARTNER AS:  Flest kurs med Startgaranti Rimeligste kurs Beste service og personlig oppfølgning Tilgang til opptak etter endt kurs Partner med flere av verdens beste kursleverandører [-]
Les mer
4 dager 25 000 kr
AI-102 Designing and Implementing an Azure AI Solution is intended for software developers wanting to build AI infused applications that leverage Azure Cognitive Services... [+]
TARGET AUDIENCE Software engineers concerned with building, managing and deploying AI solutions that leverage Azure Cognitive Services, Azure Cognitive Search, and Microsoft Bot Framework. They are familiar with C#, Python, or JavaScript and have knowledge on using REST-based APIs to build computer vision, language analysis, knowledge mining, intelligent search, and conversational AI solutions on Azure. COURSE OBJECTIVES After completing this course you should be able to: Describe considerations for creating AI-enabled applications Identify Azure services for AI application development Provision and consume cognitive services in Azure Manage cognitive services security Monitor cognitive services Use a cognitive services container Use the Text Analytics cognitive service to analyze text Use the Translator cognitive service to translate text Use the Speech cognitive service to recognize and synthesize speech Use the Speech cognitive service to translate speech Create a Language Understanding app Create a client application for Language Understanding Integrate Language Understanding and Speech Use QnA Maker to create a knowledge base Use a QnA knowledge base in an app or bot Use the Bot Framework SDK to create a bot Use the Bot Framework Composer to create a bot Use the Computer Vision service to analyze images Use Video Indexer to analyze videos Use the Custom Vision service to implement image classification Use the Custom Vision service to implement object detection Detect faces with the Computer Vision service Detect, analyze, and recognize faces with the Face service Use the Computer Vision service to read text in images and documents Use the Form Recognizer service to extract data from digital forms Create an intelligent search solution with Azure Cognitive Search Implement a custom skill in an Azure Cognitive Search enrichment pipeline Use Azure Cognitive Search to create a knowledge store   COURSE CONTENT Module 1: Introduction to AI on Azure Artificial Intelligence (AI) is increasingly at the core of modern apps and services. In this module, you'll learn about some common AI capabilities that you can leverage in your apps, and how those capabilities are implemented in Microsoft Azure. You'll also learn about some considerations for designing and implementing AI solutions responsibly. Introduction to Artificial Intelligence Artificial Intelligence in Azure Module 2: Developing AI Apps with Cognitive Services Cognitive Services are the core building blocks for integrating AI capabilities into your apps. In this module, you'll learn how to provision, secure, monitor, and deploy cognitive services. Getting Started with Cognitive Services Using Cognitive Services for Enterprise Applications Lab: Get Started with Cognitive Services Lab: Get Started with Cognitive Services Lab: Monitor Cognitive Services Lab: Use a Cognitive Services Container Module 3: Getting Started with Natural Language Processing  Natural Language processing (NLP) is a branch of artificial intelligence that deals with extracting insights from written or spoken language. In this module, you'll learn how to use cognitive services to analyze and translate text. Analyzing Text Translating Text Lab: Analyze Text Lab: Translate Text Module 4: Building Speech-Enabled Applications Many modern apps and services accept spoken input and can respond by synthesizing text. In this module, you'll continue your exploration of natural language processing capabilities by learning how to build speech-enabled applications. Speech Recognition and Synthesis Speech Translation Lab: Recognize and Synthesize Speech Lab: Translate Speech Module 5: Creating Language Understanding Solutions To build an application that can intelligently understand and respond to natural language input, you must define and train a model for language understanding. In this module, you'll learn how to use the Language Understanding service to create an app that can identify user intent from natural language input. Creating a Language Understanding App Publishing and Using a Language Understanding App Using Language Understanding with Speech Lab: Create a Language Understanding App Lab: Create a Language Understanding Client Application Use the Speech and Language Understanding Services Module 6: Building a QnA Solution One of the most common kinds of interaction between users and AI software agents is for users to submit questions in natural language, and for the AI agent to respond intelligently with an appropriate answer. In this module, you'll explore how the QnA Maker service enables the development of this kind of solution. Creating a QnA Knowledge Base Publishing and Using a QnA Knowledge Base Lab: Create a QnA Solution Module 7: Conversational AI and the Azure Bot Service Bots are the basis for an increasingly common kind of AI application in which users engage in conversations with AI agents, often as they would with a human agent. In this module, you'll explore the Microsoft Bot Framework and the Azure Bot Service, which together provide a platform for creating and delivering conversational experiences. Bot Basics Implementing a Conversational Bot Lab: Create a Bot with the Bot Framework SDK Lab: Create a Bot with a Bot Freamwork Composer Module 8: Getting Started with Computer Vision Computer vision is an area of artificial intelligence in which software applications interpret visual input from images or video. In this module, you'll start your exploration of computer vision by learning how to use cognitive services to analyze images and video. Analyzing Images Analyzing Videos Lab: Analyse Images with Computer Vision Lab: Analyze Images with Video Indexer Module 9: Developing Custom Vision Solutions While there are many scenarios where pre-defined general computer vision capabilities can be useful, sometimes you need to train a custom model with your own visual data. In this module, you'll explore the Custom Vision service, and how to use it to create custom image classification and object detection models. Image Classification Object Detection Lab: Classify Images with Custom Vision Lab: Detect Objects in Images with Custom Vision Module 10: Detecting, Analyzing, and Recognizing Faces Facial detection, analysis, and recognition are common computer vision scenarios. In this module, you'll explore the user of cognitive services to identify human faces. Detecting Faces with the Computer Vision Service Using the Face Service Lab:Destect, Analyze and Recognize Faces Module 11: Reading Text in Images and Documents Optical character recognition (OCR) is another common computer vision scenario, in which software extracts text from images or documents. In this module, you'll explore cognitive services that can be used to detect and read text in images, documents, and forms. Reading text with the Computer Vision Service Extracting Information from Forms with the Form Recognizer service Lab: Read Text in IMages Lab: Extract Data from Forms Module 12: Creating a Knowledge Mining Solution Ultimately, many AI scenarios involve intelligently searching for information based on user queries. AI-powered knowledge mining is an increasingly important way to build intelligent search solutions that use AI to extract insights from large repositories of digital data and enable users to find and analyze those insights. Implementing an Intelligent Search Solution Developing Custom Skills for an Enrichment Pipeline Creating a Knowledge Store Lab: Create and Azure Cognitive Search Solution Create a Custom Skill for Azure Cognitive Search Create a Knowledge Store with Azure Cognitive Search   TEST CERTIFICATION Recommended as preparation for the following exams: AI-102 - Designing and Implementing a Microsoft Azure AI Solution - Part of the requirements for the Microsoft Certified Azure AI Engineer Associate Certification.   HVORFOR VELGE SG PARTNER AS:  Flest kurs med Startgaranti Rimeligste kurs Beste service og personlig oppfølgning Tilgang til opptak etter endt kurs Partner med flere av verdens beste kursleverandører [-]
Les mer
660 kr
En eBorger klarer å være med i vår tid hvor internett og e-post er viktige verktøy for å finne informasjon og holde kontakten med andre. Kom igang raskt [+]
En eBorger klarer å være med i vår tid hvor internett og e-post er viktige verktøy for å finne informasjon og holde kontakten med andre.   Dette vil du lære Enkel innføring om datamaskinen Enkel tekstbehandling og utskrift Sende og motta e-post Gå ut i verden på Internett. Finn oppdaterte rutetider, tv-programmer, billetter, nettbanken, informasjon om dine hobbyer, slekt og venner, etc. [-]
Les mer
1 år 61 050 kr
Et utfordrende år med fokus på kreativ bruk av datamaskin. [+]
Fagområder:- Webdesign- Grafikk- Video- Storskjerm- Selvvalgt fordypningsemne   På denne linjen får du utfordre deg selv innenfor data og multimedia. Undervisningen er i stor grad basert på prosjekter og småoppgaver, hvor du får praktisk erfaring.   I webdesign lærer du alt fra HTML/CSS, til å sette opp din egen publiseringsløsning. Her kan du legge ut arbeidene dine i grafikk og video. Vi har også mange prosjekter hvor vi samarbeider med de andre på seksjonen. For eksempel kan vi sette opp storskjerm med live video, og vi kan lage musikkvideoer. Du får også muligheten til å velge ditt eget fordypningsemne; her kan du velge et emne innenfor data/multimedia som du selv har lyst til å jobbe med.   Hele seksjonen reiser på studietur til New York, 1 til 2 uker, i løpet året for å få inspirasjon og opplevelser som vil være med på resten av skoleåret. [-]
Les mer
5 000 kr
5G Security [+]
5G Security [-]
Les mer