leetcode-problemset/leetcode/originData/[no content]minimizing-array-after-replacing-pairs-with-their-product.json

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            "title": "Minimizing Array After Replacing Pairs With Their Product",
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                "If there is a zero in the array, then the answer would be <code>1</code>.",
                "Merge all adjacent ones (since <code>1 * 1 = 1</code> and <code>k >= 1</code>).",
                "Let <code>dp[i]</code> be the answer to the problem for the first <code>i</code> elements.",
                "To calculate <code>dp[i]</code>, try to brute-force all indices <code>j</code> such that elements from <code>j</code> to <code>i</code> are merged together to create a new element.",
                "For a fixed <code>i</code>, you could go backward from <code>i<sup>th</sup></code> elements and multiply them together until the product is at most <code>k</code>. Now if you are currently on index <code>j</code> and you've merged all elements from <code>j<sup>th</sup></code> element to <code>i<sup>th</sup></code> element, <code>dp[i] = min(dp[i], dp[j - 1] + 1)</code>.",
                "The above backward moving can be done at most <code>2 * log<sub>2</sub>(k)</code> times. Since we've merged adjacent ones, every two adjacent elements have a product of at least <code>2</code>.",
                "So the total time complexity would be <code>n * 2 * log<sub>2</sub>(k)</code>."
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update 2023-10-05 03:40:12 +08:00			`{`
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			`"title": "Minimizing Array After Replacing Pairs With Their Product",`
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			`"If there is a zero in the array, then the answer would be <code>1</code>.",`
			`"Merge all adjacent ones (since <code>1 * 1 = 1</code> and <code>k >= 1</code>).",`
			`"Let <code>dp[i]</code> be the answer to the problem for the first <code>i</code> elements.",`
			`"To calculate <code>dp[i]</code>, try to brute-force all indices <code>j</code> such that elements from <code>j</code> to <code>i</code> are merged together to create a new element.",`
			`"For a fixed <code>i</code>, you could go backward from <code>i<sup>th</sup></code> elements and multiply them together until the product is at most <code>k</code>. Now if you are currently on index <code>j</code> and you've merged all elements from <code>j<sup>th</sup></code> element to <code>i<sup>th</sup></code> element, <code>dp[i] = min(dp[i], dp[j - 1] + 1)</code>.",`
			`"The above backward moving can be done at most <code>2 * log<sub>2</sub>(k)</code> times. Since we've merged adjacent ones, every two adjacent elements have a product of at least <code>2</code>.",`
			`"So the total time complexity would be <code>n * 2 * log<sub>2</sub>(k)</code>."`
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