If you have performance issues with looping over each record, but the table is too big for a single update, you may consider updating in batches using BULK INTO ... LIMIT and FORALL.
CREATE TABLE klm (abc INTEGER, xyz INTEGER);
CREATE TABLE update_data (abc INTEGER, cdf INTEGER);
-- Have pairs of numbers (1000 rows)
INSERT INTO klm SELECT rownum, rownum FROM dual CONNECT BY level <= 1000;
-- Update every second row with 9999
INSERT INTO update_data SELECT rownum * 2, 9999 FROM dual CONNECT BY level <= 500;
-- Select the key to be updated and the new value
SELECT abc, cdf FROM update_data;
-- Table type and table variable to store rows fetched from the cursor
TYPE t_update IS TABLE OF c1%rowtype;
-- Fetch next 30 rows into update table
FETCH c1 BULK COLLECT INTO update_tab LIMIT 30;
-- Exit when there were no more rows fetched
EXIT WHEN update_tab.count = 0;
-- This is the key point; uses update_tab to bulk-bind UPDATE statement
-- and run it for 30 rows in a single context switch
FORALL i IN 1..update_tab.count
SET klm.xyz = update_tab(i).cdf
WHERE update_tab(i).abc = klm.abc;
The rationale behind this is that Oracle actually has separate engines running SQL statements and PL/SQL programs. Whenever a procedure encounters an SQL statement, it hands it over to SQL engine for execution. This is called "context switch" and takes a significant amount of time, especially when done in a loop.
Bulk-binding aims to reduce this overhead by doing the context switch only once per [bulk size] records. Again, this is certainly not as effective as a single DML operation, but for large tables or complex queries it may be best feasible solution.
I've used above method to update tables with 100M-500M records with batch size of 10K-100K and it worked fine. But you need to experiment with batch size in your environment for best performance.