NYT hard Sudoku 17th March 2021 is very hard, but you can have quick elegant solution with super powered Sudoku techniques such as triple digit scan.
NYT Very Hard Sudoku 17th March 2021: Quick Elegant Solution: Easier but super powered Sudoku techniques will do the trick
Stage 1: All breakthroughs assured
Hidden singles R2C2 1, naked singles R2C9 5, R2C7 3, R2C8 9, hidden single R3C5 3.
Cycle (2,6) in R2, hidden single R1C4 8, naked double Cycle (4,9) in C6.
Triple digit scans for [2,5,6] in C8, C9 on left bottom major square creates two Cycles (2,5,6) and (4,7,8) in C7, Cycle (4,7,8) in top right major square and Cycle (1,4,7,8) in bottom right major square,in C8 and in C9.
With 1 in C7 single digit lock on 1 in C9: major breakthrough: starting with naked single R9C9 7, naked single R9C8 1, Cycle (4,8) in C8, naked singles R3C8 7, R1C7 4, R9C9 8.
Cycles (7,8) in C7 and (1,4) in C9. With 4 in R1, naked singles R1C6 9, R3C6 4, R2C2 1, R5C8 3.
Hard to find naked single R6C3 3 by parallel scan for 3 on R6.
Hidden singles R1C1 3, R4C3 6. Cycles (5,7) and (2,9) in top right major square.
Breakthrough R6C6 6 by parallel scan for 6 on C6.
This is the last major breakthrough and it is the critical breakthrough. Rest of the empty cells will be easily resolved either by row column scan as hidden singles or by possible digit reduction as the naked singles.
Solution will be shown next.
Results till now.
Stage 2: Assured Easy Cells
Start with R6C7 8.
Ultimately it is possible digit analysis or row column scan. That is either naked singles or hidden singles.
Solution shown
Easier Unconventional Sudoku Techniques: Based on the fundamental three Sudoku rules
Hidden single: Row column digit scan: Most basic:
If a digit appears in a row and a column (or a second row) to eliminate all but one cell in the intersecting major square, the digit scanned must be placed in the single cell in the major square available for it. This is a conventional nomenclature, but basically is the simple row column scan resulting in a unique valid digit cell.
DS reductions or possible digit subset reductions:
The is used nearly at every step on the way to the solution. It specifically is useful for giving naked singles or Cycles. DS reduction for breakthrough usually occurs when DS in one zone (say row) interacts with the existing common digits of a second intersecting zone (say another intersecting column) reducing the DS in the intersected cell to just 1.
Example: DS [5,7,9] in Row R8 intersects with Column C8 containing [5,9] reducing DS of intersected cell to breakthrough R8C8 7.
Naked single by DS reductions:
When DS reduction in a specific cell by the unique digits present in the affecting row, column and the major square leaves only one possible digit for the cell, we get a unique digit valid cell. This is conventionally called a Naked Single.
Naked single may appear in many ways. When a row (or column) has eight cells filled up, the naked single automatically becomes the candidate for the ninth cells.
In a Cycle of 2 (three or higher numbers) cells, two digits are locked up. When one of the two is reduced by new appearance of the digit in an affecting zone (row, column or major square) the second cells of the Cycle gets the naked single.
In essence, naked single is the only digit eligible to be placed in a specific cell (all other eight digits eliminated by their presence in affecting zones). In abstraction, hidden single is also a type of naked single, but because of its ease of use, the basic operation of finding a hidden single by row column scan, a different name is used .
Double digit scan:
Same two digits appearing in a column and an intersecting row restrict the possible cells for the two digits in the affected major square to just two. This creates a Cycle of the two digits scanned simultaneously.
The digits scanned must not be present in the major square scanned and unaffected empty cells must be exactly two for creating the breakthrough two digit Cycle.
Parallel digit scan:
In parallel digit scan, a single digit appears in a number of rows (or columns) eliminating the cells of an intersecting column (or row) for occupancy of the digit scanned. This may leave a single cell in the affected column (or row) for the scanned digit providing a breakthrough.
Cycle:
If the same set of 2 (3, 4 or 5) digits in different combinations appear in 2 (3, 4 or 5) cells of a row (or column or a major square), no other cell of the row (or column or major square) can have these Cycled digits. Example: A Cycle of (8,9) in two cells of a row debars any other cell of the row to have the digit 8 or 9.
Single digit lock:
When a single digit appears in DSs of only two cells in a row (or column), the digit is locked in this row (or column) and its cells. No other cell in the affected row (or column) can host this locked digit. Usually, a single digit lock is sought for within a major square. This debars the cells of the major square from hosting the locked digit as well. For example: if digit 4 in R4 and R6 eliminates all cells of the central middle major square for 4 except R5C4 and R5C5, we get digit 4 lock in R5 and also in central middle major square. Digit 4 cannot appear in any other cell in R5 or the major square.
Single digit locks may occur also with same digit in three consecutive cells in a major square row (or column).
Rare is the single digit lock spread over more than one major square, but these may be of great value if a pair of such single digit locks happen to share two columns and two rows resulting in more valuable breakthrough digit pattern of X wing or still more powerful chained single digit locks.
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