Hi Mathieu, You were right. In the early stage, I only intend to implement the basic TermQuery and BooleanQuery function. Fuzzy match and partial match requires more complicated algorithms. Cache consistency will certainly be my concern.
And yes, each node contains their own documents and builds index against them. On Mon, Mar 3, 2008 at 1:30 AM, Mathieu Lecarme <[EMAIL PROTECTED]> wrote: > Thanks for your clean and long answer. > > With Term splitted on different node you've got different drawback : > PrefixQuery and FuzzyQuery will be very hard to implement. > > Your DHT look very nice, but Bittorrent, the best bandwidth consumer > in the world (something like 30% of the Internet), made the choice to > centralize this bottleneck. But recently, Bittorrent can be used > trackerless. > When you read Google withe paper, more about cluster computing than > p2p computing, I agree, it says that one conductor (with redundancy) > is better than spreading and broadcasting information. > The trouble is to be sure that every node is synchronized, and waiting > for the latest. Redundant reliable information is not very compatible > with P2P, IMHO, redundant caching should be better. > > Your dichotomic approach looks nice, first a simple action to know > wich node to ask, and after, consolidation of the answers. > > In your scheme, where are indexed documents? Each letter node contains > their own documents? > > M. > > Le 2 mars 08 à 17:09, 仇寅 a écrit : > > > Hi, > > > > I am just doing some simple research on P2P searches. In my > > assumption, all nodes in this system index their own documents and > > each node will be able to search all the documents in the network > > (including others'). This is just like file sharing. The simple > > approach is to keep all the indices locally and to flood the query > > along the network. But this may consume much network bandwidth because > > too much nodes, which are not relevant to one certain query, are > > involved in handling a query. > > > > So I want to introduce DHT into my system to solve this problem. First > > let me explain what DHT is if you don't know about it. Distributed > > Hash Table implements a function lookup(key) on a P2P overlay. It > > finds the node of nodeID "nearest" to a certain "key" efficiently, > > usually in logN hops, where N is the total number of nodes. Here the > > concept "nearest" is not necessarily geographically, but is defined > > the DHT implementation. For example, one implementation would define a > > key is nearest to a nodeID when |nodeID-key| is the minimum value. DHT > > is widely used in P2P file sharing tools, like Azureus and eMule. > > > > In my design, why I want to partition the indices by keyword is to > > well facilitate this lookup(key) function. Suppose we have two terms: > > A and B. Term A's docList contains 1, 2, and 3; while term B's docList > > contains 2, 3, and 4. To partition the indices, we hashes terms A and > > B to two keys. We transfer the indices to the corresponding nodes > > after calling lookup(key). To handle this query, we would again hash > > these two terms to two keys, and locate the nodes responsible for the > > terms, respectively, also using the lookup(key) function. We finally > > do an intersection and get the result "2 and 3". Of course here we > > only get a pointer to the actual indexed document, so we still to > > fetch the document content after this. > > > > And I don't think this scheme brings lots of single point of failures > > because indices can be replicated on several nodes whose nodeID's are > > near to each other. Even one node is down, the lookup(key) function > > still finds a substituting node. > > > > As I don't know how to partition the indices by keyword yet, my design > > now is to keep the Lucene indices locally and writes the simplified > > inverted indices to the nodes responsible for certain keywords. For > > example, node X has the postings like: > > > > termA: doc1, doc2, doc3 > > termB: doc2, doc3, doc4 > > > > and lookup(hash(termA)) returns node Y, lookup(hash(termB)) returns > > node Z. > > > > Then in the indexing process, node X writes the info "termA: > > nodeX.doc1, nodeX.doc2, nodeX.doc3" on node Y, an the info "termB: > > nodeX.doc2, nodeX.doc3, nodeX.doc4" on node Z. At the final step, we > > follow this info and go back to node X to get the Lucene Field values > > and the real documents. > > > > Any idea or feedback on my preliminary design? > > > > On Sun, Mar 2, 2008 at 3:48 PM, Uwe Goetzke > > <[EMAIL PROTECTED]> wrote: > >> Hi, > >> > >> I do not yet fully understand what you want to achieve. > >> You want to spread the index split by keywords to reduce the time > >> to distribute indexes? > >> And you want the distribute queries to the nodes based on the same > >> split mechanism? > >> > >> > >> You have several nodes with different kind of documents. > >> You want to build one index for all nodes and split and distribute > >> the index based on a set of keywords specific to a node. This you > >> want to do to split the queries so "each query involves > >> communicating with constant number of nodes". > >> > >> Do documents at the nodes contain only such keywords? I doubt. > >> So you need anyway a reference where the indexed doc can be found > >> and retrieve it from its node for display. > >> You could index at each node, merge all indexes from all nodes and > >> distribute the combined index. > >> On what criteria you can split the queries? If you have a combined > >> index each node can distribute the queries to other nodes on > >> statistical data found in the term distribution. > >> You need to merge the results anyway. > >> > >> I doubt that this kind of overhead is worth the trouble because you > >> introduce a lot of single points of failure. And the scalability > >> seems limited because you would need to recalibrate the whole > >> network when a adding a new node. Why don't you distribute the > >> complete index (we do this after getting it locally zipped and > >> later unzipped on the receiver node, size is less than one third > >> for transfering). Each node should have some activity indicator. > >> Distribute the complete query to the node with the smallest > >> activiy. So you get redundancy, do not need to split queries and > >> merge results. OK, one "evil" query can bring a node "down" but the > >> network is still working. > >> > >> Do you have any results using lucene on a single node for your > >> approach? How many queries and how many documents do you expect? > >> > >> Regards > >> > >> Uwe > >> > >> -----Ursprüngliche Nachricht----- > >> Von: [EMAIL PROTECTED] [mailto:[EMAIL PROTECTED] Im Auftrag > >> von ?? > >> Gesendet: Sonntag, 2. März 2008 03:05 > >> An: java-user@lucene.apache.org > >> Betreff: Re: Does Lucene support partition-by-keyword indexing? > >> > >> > >> > >> Hi, > >> > >> I agree with your point that it is easier to partition index by > >> document. > >> But the partition-by-keyword approach has much greater scalability > >> over the > >> partition-by-document approach. Each query involves communicating > >> with > >> constant number of nodes; while partition-by-doc requires spreading > >> the > >> query a long all or many of the nodes. And I am actually doing some > >> small > >> research on this. By the way, the documents to be indexed are not > >> necessarily web pages. They are mostly files stored on each node's > >> file > >> system. > >> > >> Node failures are also handled by replicas. The index for each term > >> will be > >> replicated on multiple nodes, whose nodeIDs are near to each other. > >> This > >> mechanism is handled by the underlying DHT system. > >> > >> So any idea how can partition index by keyword in lucene? Thanks. > >> > >> On Sun, Mar 2, 2008 at 5:50 AM, Mathieu Lecarme < > [EMAIL PROTECTED] > >> > > >> wrote: > >> > >>> The easiest way is to split index by Document. In Lucene, index > >>> contains Document and inverse index of Term. If you wont to put Term > >>> in different place, Document will be duplicated on each index, with > >>> only a part of their Term. > >>> > >>> How will you manage node failure in your network? > >>> > >>> They were some trial to build big p2p search engine to compet with > >>> Google, but, it will be easier to split by Document. > >>> > >>> If you have to many computers and want to see them working together, > >>> why don't use Nutch with Hadoop? > >>> > >>> M. > >>> Le 1 mars 08 à 19:16, Yin Qiu a écrit : > >>> > >>>> Hi, > >>>> > >>>> I'm planning to implement a search infrastructure on a P2P > >>>> overlay. To > >>>> achieve this, I want to first distribute the indices to various > >>>> nodes > >>>> connected by this overlay. My approach is to partition the > >>>> indices by > >>>> keyword, that is, one node takes care of certain keywords (or > >>>> terms). When a > >>>> simple TermQuery is encountered, we just find the node associated > >>>> with that > >>>> term (with distributed hash table) and get the result. And > >>>> suppose a > >>>> BooleanQuery is issued, we contact all the nodes involved in this > >>>> query and > >>>> finally merge the result. > >>>> > >>>> So my question is: does Lucene support partitioning the indices by > >>>> keywords? > >>>> > >>>> Thanks in advance. > >>>> > >>>> -- > >>>> Look before you leap > >>>> ------------------------------------------- > >>> > >>> > >>> --------------------------------------------------------------------- > >>> To unsubscribe, e-mail: [EMAIL PROTECTED] > >>> For additional commands, e-mail: [EMAIL PROTECTED] > >>> > >>> > >> > >> > >> -- > >> Look before you leap > >> ------------------------------------------- > >> > >> ----------------------------------------------------------------------- > >> Healy Hudson GmbH - D-55252 Mainz Kastel > >> Geschäftsführer Christian Konhäuser - Amtsgericht Wiesbaden HRB > >> 12076 > >> > >> Diese Email ist vertraulich. Wenn Sie nicht der beabsichtigte > >> Empfänger sind, dürfen Sie die Informationen nicht offen legen > >> oder benutzen. Wenn Sie diese Email durch einen Fehler bekommen > >> haben, teilen Sie uns dies bitte umgehend mit, indem Sie diese > >> Email an den Absender zurückschicken. Bitte löschen Sie danach > >> diese Email. > >> This email is confidential. If you are not the intended recipient, > >> you must not disclose or use this information contained in it. 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