mitzen

 Sometimes we refactor our terraform code and move the basic terraform code  Let's say we have the following code  # main.tf (Root level) resource "azurerm_storage_account" "old_storage" {   name                     = " mystorage2026 "   resource_group_name       = " my-rg "   location                 = " East US "   account_tier             = " Standard "   account_replication_type = " LRS " } And then we refactor our code to the following code structure  The Module Code (modules/storage/main.tf) Notice that inside the module, I've given the resource a new local name: modular_storage. resource "azurerm_storage_account" "modular_storage" {   name                     = var . storage_name   resource_group_name       = ...

Pyspark Pi calculation To get thing started, we need a pyspark code - this is a simple pi.py andvthen upload this to your google bucket.  import sys from random import random from operator import add from pyspark . sql import SparkSession if __name__ == " __main__ " :     """         Usage: pi [partitions]     """     spark = SparkSession \         . builder \         . appName ( " PythonPi " )\         . getOrCreate ()     partitions = int ( sys . argv [ 1 ]) if len ( sys . argv ) > 1 else 2     n = 100000 * partitions     def f ( _ : int ) -> float :         x = random () * 2 - 1         y = random () * 2 - 1         return 1 if x ** 2 + y ** 2 <= 1 else 0     count = spark . sparkContext . parallelize ( range ( 1 , n...

Using RAG with ADK engine, we need to setup our RAG engine corpus and tell our agent to use that as a point of reference. As you can see here RAG_CORPUS contains details of this endpoint.   Then we use a tool called VertexAiRagRetrieval  from google . adk . tools . retrieval . vertex_ai_rag_retrieval import (     VertexAiRagRetrieval , ) Then we hook it up to our agent and make these knowledge accessible  # Initialize tools list tools = [] # Only add RAG retrieval tool if RAG_CORPUS is configured rag_corpus = os . environ . get ( " RAG_CORPUS " ) if rag_corpus :     ask_vertex_retrieval = VertexAiRagRetrieval (         name = " retrieve_rag_documentation " ,         description =(             " Use this tool to retrieve documentation and reference materials for the question from the RAG corpus, "         ),         rag_resources ...

This is for formality purposes and we constantly need to deploy and consumer agentic app that we deployed to Vertex AI.  To deploy,  we can use the following code. import logging import os import vertexai from dotenv import set_key from vertexai import agent_engines from vertexai . preview . reasoning_engines import AdkApp from rag . agent import root_agent logging . basicConfig ( level = logging . DEBUG ) logger = logging . getLogger ( __name__ ) GOOGLE_CLOUD_PROJECT = os . getenv ( " GOOGLE_CLOUD_PROJECT " ) GOOGLE_CLOUD_LOCATION = os . getenv ( " GOOGLE_CLOUD_LOCATION " ) STAGING_BUCKET = os . getenv ( " STAGING_BUCKET " ) # Define the path to the .env file relative to this script ENV_FILE_PATH = os . path . abspath (     os . path . join ( os . path . dirname ( __file__ ), " .. " , " .env " ) ) vertexai . init (     project = GOOGLE_CLOUD_PROJECT ,     location = GOOGLE_CLOUD_LOCATION ,     staging_bucket = S...

Bump into this error while trying to test out the adk service that is deployed to vertex AI. It seems like vertex agent can't decide it should use GOOGLE_API_KEY or another.  ValueError: Project/location and API key are mutually exclusive in the client initializer. To resolve this, just have to set   GOOGLE_API_KEY="". Then re-run  your script.

Optimizating database storage is always a key focus area when running databases. Lets get started with some basics.  Database storage used Run the following query to see how much space your database currently using SELECT datname AS database_name , pg_size_pretty(pg_database_size(datname)) AS total_size FROM pg_database ORDER BY pg_database_size(datname) DESC ; And you may get further break down here:- Table size spaces used  Let's see how much space used between data and index  SELECT relname AS table_name , pg_size_pretty(pg_total_relation_size(relid)) AS total_size, pg_size_pretty(pg_relation_size(relid)) AS data_size, pg_size_pretty(pg_total_relation_size(relid) - pg_relation_size(relid)) AS index_size FROM pg_catalog . pg_statio_user_tables ORDER BY pg_total_relation_size(relid) DESC ; And we may get the following outputs. We can see how much actual data stored in the data (data_size) and how much taken up by the index_size .  It is important to keep...