allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure by Key, where a segment of serial Key is stored on a node. TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a Region

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure Key, where a segment of serial Key is stored on a node. 3069 TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure by Key, where a segment of serial Key is stored on a node. TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a Region

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure Key, where a segment of serial Key is stored on a node. 2973 TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a

MPP Worker TiDB / TiSpark TiFlash Node 2 TiFlash Node 3 Coordinator MPP Worker MPP Worker Plan Segment TiFlash nodes exchange data and enable complex operators like distributed join. MPP Support

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure by Key, where a segment of serial Key is stored on a node. TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a Region

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure by Key, where a segment of serial Key is stored on a node. TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a Region

allocated. STEP int The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure by Key, where a segment of serial Key is stored on a node. TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a Region

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure by Key, where a segment of serial Key is stored on a node. TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a Region

allocated. STEP int(11) The step, which indicates the length of each assigned segment. Every time, the application gets a segment of sequence numbers at the configured step. It updates the database at the sequence numbers are completed in the application’s memory. After a segment of sequence numbers is used up, the application gets a new segment of sequence numbers, which effectively alleviates the pressure Key, where a segment of serial Key is stored on a node. 3234 TiKV chooses the second solution that divides the whole Key-Value space into a series of consecutive Key segments. Each segment is called a