From 274779208526338b1ae5949e07f2b2375892e52a Mon Sep 17 00:00:00 2001 From: Hoa Nguyen Date: Wed, 19 Jul 2023 17:30:55 +1000 Subject: [PATCH] Update examples --- modules/iquantum-examples/README.md | 10 +++++----- 1 file changed, 5 insertions(+), 5 deletions(-) diff --git a/modules/iquantum-examples/README.md b/modules/iquantum-examples/README.md index 9310f9be3..a88ffed20 100644 --- a/modules/iquantum-examples/README.md +++ b/modules/iquantum-examples/README.md @@ -3,21 +3,21 @@ This directory contains several examples that demonstrate the use of iQuantum. The examples are located in the `org.iquantum.examples` package. ## Example 1 -This example demonstrates how to create a simple quantum CDatacenter with a single quantum computer (`QNode)` and -a single quantum task (`Qulet`). The quantum task is submitted to the quantum computer for execution. +This example demonstrates how to create a simple quantum datacenter with a single quantum computer (`QNode)` and +a single quantum task (`QTask`). The quantum task is submitted to the quantum computer for execution. ## Example 2 This example demonstrates how to create a quantum CDatacenter with 2 quantum computers (`QNode`) follow the configurations -of IBM Oslo and IBM Perth nodes, 2 quantum tasks (`Qulet`) with different topologies. +of IBM Oslo and IBM Perth nodes, 2 quantum tasks (`QTask`) with different topologies. ## Example 3 This example demonstrates how to create a quantum CDatacenter with 2 quantum computers (`QNode`) and -4 quantum tasks (`Qulet`). Some of quantum tasks require more qubits than the number of qubits +4 quantum tasks (`QTask`). Some of quantum tasks require more qubits than the number of qubits available in the quantum computer, which results in the rejection of these tasks. ## Example 4 This example demonstrates how to create a quantum CDatacenter with 2 quantum computers (`QNode`) follow the configurations -of IBM Hanoi and IBM Geneva nodes automatically (imported from the CSV dataset), 4 quantum tasks (`Qulet`) with different +of IBM Hanoi and IBM Geneva nodes automatically (imported from the CSV dataset), 4 quantum tasks (`QTask`) with different topologies. The quantum tasks are submitted to the quantum computers for execution. More advanced examples will be added in the future. \ No newline at end of file